3 * This source code is part of
7 * GROningen MAchine for Chemical Simulations
11 * The make_edi program was generously contributed by Oliver Lange, based
12 * on the code from g_anaeig. You can reach him as olange@gwdg.de.
14 * This program is free software; you can redistribute it and/or
15 * modify it under the terms of the GNU General Public License
16 * as published by the Free Software Foundation; either version 2
17 * of the License, or (at your option) any later version.
19 * If you want to redistribute modifications, please consider that
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27 * the papers on the package - you can find them in the top README file.
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32 * Gromacs Runs One Microsecond At Cannonball Speeds
48 #include "gmx_fatal.h"
80 /* This type is for the average, reference, target, and origin structure */
83 int nr
; /* number of atoms this structure contains */
84 int *anrs
; /* atom index numbers */
85 rvec
*x
; /* positions */
86 real
*sqrtm
; /* sqrt of the masses used for mass-
87 * weighting of analysis */
93 int nini
; /* total Nr of atoms */
94 bool fitmas
; /* true if trans fit with cm */
95 bool pcamas
; /* true if mass-weighted PCA */
96 int presteps
; /* number of steps to run without any
97 * perturbations ... just monitoring */
98 int outfrq
; /* freq (in steps) of writing to edo */
99 int maxedsteps
; /* max nr of steps per cycle */
100 struct edix sref
; /* reference positions, to these fitting
102 struct edix sav
; /* average positions */
103 struct edix star
; /* target positions */
104 struct edix sori
; /* origin positions */
105 real slope
; /* minimal slope in acceptance radexp */
106 int ned
; /* Nr of atoms in essdyn buffer */
107 t_edflood flood
; /* parameters especially for flooding */
112 void make_t_edx(struct edix
*edx
, int natoms
, rvec
*pos
, atom_id index
[]) {
118 void write_t_edx(FILE *fp
, struct edix edx
, const char *comment
) {
119 /*here we copy only the pointers into the t_edx struct
120 no data is copied and edx.box is ignored */
122 fprintf(fp
,"#%s \n %d \n",comment
,edx
.nr
);
123 for (i
=0;i
<edx
.nr
;i
++) {
124 fprintf(fp
,"%d %f %f %f\n",(edx
.anrs
)[i
]+1,(edx
.x
)[i
][XX
],(edx
.x
)[i
][YY
],(edx
.x
)[i
][ZZ
]);
128 int sscan_list(int *list
[], const char *str
, const char *listname
) {
129 /*this routine scans a string of the form 1,3-6,9 and returns the
130 selected numbers (in this case 1 3 4 5 6 9) in NULL-terminated array of integers.
131 memory for this list will be allocated in this routine -- sscan_list expects *list to
134 listname is a string used in the errormessage*/
139 char *pos
,*startpos
,*step
;
142 /*enums to define the different lexical stati */
143 enum { sBefore
, sNumber
, sMinus
, sRange
, sZero
, sSmaller
, sError
, sSteppedRange
};
145 int status
=sBefore
; /*status of the deterministic automat to scan str */
149 char *start
=NULL
; /*holds the string of the number behind a ','*/
150 char *end
=NULL
; /*holds the string of the number behind a '-' */
152 int nvecs
=0; /* counts the number of vectors in the list*/
164 while ((c
=*pos
)!=0) {
166 /* expect a number */
167 case sBefore
: if (isdigit(c
)) {
171 } else status
=sError
; break;
173 /* have read a number, expect ',' or '-' */
174 case sNumber
: if (c
==',') {
176 srenew(*list
,nvecs
+1);
177 (*list
)[nvecs
++]=number
=strtol(start
,NULL
,10);
182 } else if (c
=='-') { status
=sMinus
; break; }
183 else if (isdigit(c
)) break;
184 else status
=sError
; break;
186 /* have read a '-' -> expect a number */
190 status
=sRange
; break;
191 } else status
=sError
; break;
196 status
=sError
; break;
201 } else status
=sError
; break;
203 /* have read the number after a minus, expect ',' or ':' */
207 end_number
=strtol(end
,NULL
,10);
208 number
=strtol(start
,NULL
,10);
213 if (end_number
<=number
) {
214 status
=sSmaller
; break;
216 srenew(*list
,nvecs
+end_number
-number
+1);
218 istep
=strtol(step
,NULL
,10);
221 for (i
=number
;i
<=end_number
;i
+=istep
)
225 status
= sSteppedRange
;
227 } else if (isdigit(c
)) break; else status
=sError
; break;
229 /* format error occured */
231 gmx_fatal(FARGS
,"Error in the list of eigenvectors for %s at pos %d with char %c",listname
,pos
-startpos
,*(pos
-1));
233 /* logical error occured */
235 gmx_fatal(FARGS
,"Error in the list of eigenvectors for %s at pos %d: eigenvector 0 is not valid",listname
,pos
-startpos
);
237 gmx_fatal(FARGS
,"Error in the list of eigenvectors for %s at pos %d: second index %d is not bigger than %d",listname
,pos
-startpos
,end_number
,number
);
240 ++pos
; /* read next character */
241 } /*scanner has finished */
243 /* append zero to list of eigenvectors */
244 srenew(*list
,nvecs
+1);
250 void write_eigvec(FILE* fp
, int natoms
, int eig_list
[], rvec
** eigvecs
,int nvec
, const char *grouptitle
,real steps
[]) {
251 /* eig_list is a zero-terminated list of indices into the eigvecs array.
252 eigvecs are coordinates of eigenvectors
253 grouptitle to write in the comment line
254 steps -- array with stepsizes for evLINFIX, evLINACC and evRADACC
259 while (eig_list
[n
++]); /*count selected eigenvecs*/
261 fprintf(fp
,"# NUMBER OF EIGENVECTORS + %s\n %d\n",grouptitle
,n
-1);
263 /* write list of eigenvector indicess */
264 for(n
=0;eig_list
[n
];n
++) {
266 fprintf(fp
,"%8d %g\n",eig_list
[n
],steps
[n
]);
268 fprintf(fp
,"%8d %g\n",eig_list
[n
],1.0);
272 /* dump coordinates of the selected eigenvectors */
273 while (eig_list
[n
]) {
275 for (i
=0; i
<natoms
; i
++) {
276 if (eig_list
[n
]>nvec
)
277 gmx_fatal(FARGS
,"Selected eigenvector %d is higher than maximum number %d of available eigenvectors",eig_list
[n
],nvec
);
278 copy_rvec(eigvecs
[eig_list
[n
]-1][i
],x
);
280 fprintf(fp
,"%8.5f %8.5f %8.5f\n",x
[XX
],x
[YY
],x
[ZZ
]);
287 /*enum referring to the different lists of eigenvectors*/
288 enum { evLINFIX
, evLINACC
, evFLOOD
, evRADFIX
, evRADACC
, evRADCON
, evMON
, evEND
};
293 void write_the_whole_thing(FILE* fp
, t_edipar
*edpars
, rvec
** eigvecs
,
294 int nvec
, int *eig_listen
[], real
* evStepList
[])
299 fprintf(fp
,"#MAGIC\n %d \n#NINI\n %d\n#FITMAS\n %d\n#ANALYSIS_MAS\n %d\n",
300 MAGIC
,edpars
->nini
,edpars
->fitmas
,edpars
->pcamas
);
301 fprintf(fp
,"#OUTFRQ\n %d\n#MAXLEN\n %d\n#SLOPECRIT\n %f\n",
302 edpars
->outfrq
,edpars
->maxedsteps
,edpars
->slope
);
303 fprintf(fp
,"#PRESTEPS\n %d\n#DELTA_F0\n %f\n#INIT_DELTA_F\n %f\n#TAU\n %f\n#EFL_NULL\n %f\n#ALPHA2\n %f\n#KT\n %f\n#HARMONIC\n %d\n",
304 edpars
->presteps
,edpars
->flood
.deltaF0
,edpars
->flood
.deltaF
,edpars
->flood
.tau
,edpars
->flood
.constEfl
,edpars
->flood
.alpha2
,edpars
->flood
.kT
,edpars
->flood
.bHarmonic
);
306 /* Average and reference positions */
307 write_t_edx(fp
,edpars
->sref
,"NREF, XREF");
308 write_t_edx(fp
,edpars
->sav
,"NAV, XAV");
312 write_eigvec(fp
, edpars
->ned
, eig_listen
[evMON
],eigvecs
,nvec
,"COMPONENTS GROUP 1",NULL
);
313 write_eigvec(fp
, edpars
->ned
, eig_listen
[evLINFIX
],eigvecs
,nvec
,"COMPONENTS GROUP 2",evStepList
[evLINFIX
]);
314 write_eigvec(fp
, edpars
->ned
, eig_listen
[evLINACC
],eigvecs
,nvec
,"COMPONENTS GROUP 3",evStepList
[evLINACC
]);
315 write_eigvec(fp
, edpars
->ned
, eig_listen
[evRADFIX
],eigvecs
,nvec
,"COMPONENTS GROUP 4",evStepList
[evRADFIX
]);
316 write_eigvec(fp
, edpars
->ned
, eig_listen
[evRADACC
],eigvecs
,nvec
,"COMPONENTS GROUP 5",NULL
);
317 write_eigvec(fp
, edpars
->ned
, eig_listen
[evRADCON
],eigvecs
,nvec
,"COMPONENTS GROUP 6",NULL
);
318 write_eigvec(fp
, edpars
->ned
, eig_listen
[evFLOOD
],eigvecs
,nvec
,"COMPONENTS GROUP 7",evStepList
[evFLOOD
]);
321 /*Target and Origin positions */
322 write_t_edx(fp
,edpars
->star
,"NTARGET, XTARGET");
323 write_t_edx(fp
,edpars
->sori
,"NORIGIN, XORIGIN");
326 int read_conffile(const char *confin
,char *title
,rvec
*x
[])
328 /* read coordinates out of STX file */
332 printf("read coordnumber from file %s\n",confin
);
333 get_stx_coordnum(confin
,&natoms
);
334 printf("number of coordinates in file %d\n",natoms
);
335 /* if (natoms != ncoords)
336 gmx_fatal(FARGS,"number of coordinates in coordinate file (%s, %d)\n"
337 " does not match topology (= %d)",
338 confin,natoms,ncoords);
340 /* make space for coordinates and velocities */
341 init_t_atoms(&confat
,natoms
,FALSE
);
344 read_stx_conf(confin
,title
,&confat
,*x
,NULL
,NULL
,box
);
349 void read_eigenvalues(int vecs
[],const char *eigfile
, real values
[],
350 bool bHesse
, real kT
)
355 neig
= read_xvg(eigfile
,&eigval
,&nrow
);
357 fprintf(stderr
,"Read %d eigenvalues\n",neig
);
358 for(i
=bHesse
? 6 : 0 ; i
<neig
; i
++) {
359 if (eigval
[1][i
] < -0.001 && bHesse
)
361 "WARNING: The Hessian Matrix has negative eigenvalue %f, we set it to zero (no flooding in this direction)\n\n",eigval
[1][i
]);
363 if (eigval
[1][i
] < 0)
367 for (i
=0; vecs
[i
]; i
++) {
369 gmx_fatal(FARGS
,"ERROR: You have choosen one of the first 6 eigenvectors of the HESSE Matrix. That does not make sense, since they correspond to the 6 rotational and translational degrees of freedom.\n\n");
370 values
[i
]=eigval
[1][vecs
[i
]-1]/kT
;
373 for (i
=0; vecs
[i
]; i
++) {
374 if (vecs
[i
]>(neig
-6))
375 gmx_fatal(FARGS
,"ERROR: You have choosen one of the last 6 eigenvectors of the COVARIANCE Matrix. That does not make sense, since they correspond to the 6 rotational and translational degrees of freedom.\n\n");
376 values
[i
]=1/eigval
[1][vecs
[i
]-1];
379 for (i
=0; i
<nrow
; i
++)
385 static real
*scan_vecparams(const char *str
,const char * par
, int nvecs
)
387 char f0
[256],f1
[256]; /*format strings adapted every pass of the loop*/
392 snew(vec_params
,nvecs
);
395 for(i
=0; (i
<nvecs
); i
++) {
396 strcpy(f1
,f0
); /*f0 is the format string for the "to-be-ignored" numbers*/
397 strcat(f1
,"%lf"); /*and f1 to read the actual number in this pass of the loop*/
398 if (sscanf(str
,f1
,&d
) != 1)
399 gmx_fatal(FARGS
,"Not enough elements for %s parameter (I need %d)",par
,nvecs
);
409 void init_edx(struct edix
*edx
) {
415 void filter2edx(struct edix
*edx
,int nindex
, atom_id index
[],int ngro
,
416 atom_id igro
[],rvec
*x
,const char* structure
)
418 /* filter2edx copies coordinates from x to edx which are given in index
424 srenew(edx
->x
,edx
->nr
);
425 srenew(edx
->anrs
,edx
->nr
);
426 for (i
=0;i
<nindex
;i
++,ix
++) {
427 for (pos
=0; pos
<ngro
-1 && igro
[pos
]!=index
[i
] ; ++pos
) {}; /*search element in igro*/
428 if (igro
[pos
]!=index
[i
])
429 gmx_fatal(FARGS
,"Couldn't find atom with index %d in structure %s",index
[i
],structure
);
430 edx
->anrs
[ix
]=index
[i
];
431 copy_rvec(x
[pos
],edx
->x
[ix
]);
435 void get_structure(t_atoms
*atoms
,const char *IndexFile
,
436 const char *StructureFile
,struct edix
*edx
,int nfit
,
437 atom_id ifit
[],int natoms
, atom_id index
[])
439 atom_id
*igro
; /*index corresponding to target or origin structure*/
447 ntar
=read_conffile(StructureFile
,title
,&xtar
);
448 printf("Select an index group of %d elements that corresponds to the atoms in the structure file %s\n",
450 get_index(atoms
,IndexFile
,1,&ngro
,&igro
,&grpname
);
452 gmx_fatal(FARGS
,"You selected an index group with %d elements instead of %d",ngro
,ntar
);
454 filter2edx(edx
,nfit
,ifit
,ngro
,igro
,xtar
,StructureFile
);
455 if (ifit
!=index
) /*if fit structure is different append these coordinates, too -- don't mind duplicates*/
456 filter2edx(edx
,natoms
,index
,ngro
,igro
,xtar
,StructureFile
);
459 int main(int argc
,char *argv
[])
462 static const char *desc
[] = {
463 "[TT]make_edi[tt] generates an essential dynamics (ED) sampling input file to be used with mdrun",
464 "based on eigenvectors of a covariance matrix ([TT]g_covar[tt]) or from a",
465 "normal modes anaysis ([TT]g_nmeig[tt]).",
466 "ED sampling can be used to manipulate the position along collective coordinates",
467 "(eigenvectors) of (biological) macromolecules during a simulation. Particularly,",
468 "it may be used to enhance the sampling efficiency of MD simulations by stimulating",
469 "the system to explore new regions along these collective coordinates. A number",
470 "of different algorithms are implemented to drive the system along the eigenvectors",
471 "([TT]-linfix[tt], [TT]-linacc[tt], [TT]-radfix[tt], [TT]-radacc[tt], [TT]-radcon[tt]),",
472 "to keep the position along a certain (set of) coordinate(s) fixed ([TT]-linfix[tt]),",
473 "or to only monitor the projections of the positions onto",
474 "these coordinates ([TT]-mon[tt]).[PAR]"
476 "A. Amadei, A.B.M. Linssen, B.L. de Groot, D.M.F. van Aalten and ",
477 "H.J.C. Berendsen; An efficient method for sampling the essential subspace ",
478 "of proteins., J. Biomol. Struct. Dyn. 13:615-626 (1996)[BR]",
479 "B.L. de Groot, A. Amadei, D.M.F. van Aalten and H.J.C. Berendsen; ",
480 "Towards an exhaustive sampling of the configurational spaces of the ",
481 "two forms of the peptide hormone guanylin,"
482 "J. Biomol. Struct. Dyn. 13 : 741-751 (1996)[BR]",
483 "B.L. de Groot, A.Amadei, R.M. Scheek, N.A.J. van Nuland and H.J.C. Berendsen; ",
484 "An extended sampling of the configurational space of HPr from E. coli",
485 "PROTEINS: Struct. Funct. Gen. 26: 314-322 (1996)",
486 "[PAR]You will be prompted for one or more index groups that correspond to the eigenvectors,",
487 "reference structure, target positions, etc.[PAR]",
489 "[TT]-mon[tt]: monitor projections of the coordinates onto selected eigenvectors.[PAR]",
490 "[TT]-linfix[tt]: perform fixed-step linear expansion along selected eigenvectors.[PAR]",
491 "[TT]-linacc[tt]: perform acceptance linear expansion along selected eigenvectors.",
492 "(steps in the desired directions will be accepted, others will be rejected).[PAR]",
493 "[TT]-radfix[tt]: perform fixed-step radius expansion along selected eigenvectors.[PAR]",
494 "[TT]-radacc[tt]: perform acceptance radius expansion along selected eigenvectors.",
495 "(steps in the desired direction will be accepted, others will be rejected).",
496 "Note: by default the starting MD structure will be taken as origin of the first",
497 "expansion cycle for radius expansion. If [TT]-ori[tt] is specified, you will be able",
498 "to read in a structure file that defines an external origin.[PAR]"
499 "[TT]-radcon[tt]: perform acceptance radius contraction along selected eigenvectors",
500 "towards a target structure specified with [TT]-tar[tt].[PAR]"
501 "NOTE: each eigenvector can be selected only once. [PAR]"
502 "[TT]-outfrq[tt]: frequency (in steps) of writing out projections etc. to .edo file[PAR]",
503 "[TT]-slope[tt]: minimal slope in acceptance radius expansion. A new expansion",
504 "cycle will be started if the spontaneous increase of the radius (in nm/step)",
505 "is less than the value specified.[PAR]"
506 "[TT]-maxedsteps[tt]: maximum number of steps per cycle in radius expansion",
507 "before a new cycle is started.[PAR]"
508 "Note on the parallel implementation: since ED sampling is a 'global' thing",
509 "(collective coordinates etc.), at least on the 'protein' side, ED sampling",
510 "is not very parallel-friendly from an implentation point of view. Because",
511 "parallel ED requires much extra communication, expect the performance to be",
512 "lower as in a free MD simulation, especially on a large number of nodes. [PAR]",
513 "All output of mdrun (specify with -eo) is written to a .edo file. In the output",
514 "file, per OUTFRQ step the following information is present: [PAR]",
515 "* the step number[BR]",
516 "* the number of the ED dataset. (Note that you can impose multiple ED constraints in",
517 "a single simulation - on different molecules e.g. - if several .edi files were concatenated",
518 "first. The constraints are applied in the order they appear in the .edi file.) [BR]",
519 "* RMSD (for atoms involved in fitting prior to calculating the ED constraints)[BR]",
520 "* projections of the positions onto selected eigenvectors[BR]",
523 "with -flood you can specify which eigenvectors are used to compute a flooding potential,",
524 "which will lead to extra forces expelling the structure out of the region described",
525 "by the covariance matrix. If you switch -restrain the potential is inverted and the structure",
526 "is kept in that region.",
528 "The origin is normally the average structure stored in the eigvec.trr file.",
529 "It can be changed with -ori to an arbitrary position in configurational space.",
530 "With -tau, -deltaF0 and -Eflnull you control the flooding behaviour.",
531 "Efl is the flooding strength, it is updated according to the rule of adaptive flooding.",
532 "Tau is the time constant of adaptive flooding, high tau means slow adaption (i.e. growth). ",
533 "DeltaF0 is the flooding strength you want to reach after tau ps of simulation.",
534 "To use constant Efl set -tau to zero.",
536 "-alpha is a fudge parameter to control the width of the flooding potential. A value of 2 has been found",
537 "to give good results for most standard cases in flooding of proteins.",
538 "Alpha basically accounts for incomplete sampling, if you sampled further the width of the ensemble would",
539 "increase, this is mimicked by alpha>1.",
540 "For restraining alpha<1 can give you smaller width in the restraining potential.",
542 "RESTART and FLOODING:",
543 "If you want to restart a crashed flooding simulation please find the values deltaF and Efl in",
544 "the output file and manually put them into the .edi file under DELTA_F0 and EFL_NULL."
547 /* Save all the params in this struct and then save it in an edi file.
548 * ignoring fields nmass,massnrs,mass,tmass,nfit,fitnrs,edo
550 static t_edipar edi_params
;
552 enum { evSTEPEND
= evRADFIX
+ 1};
553 static const char* evSelections
[evEND
]= {NULL
,NULL
,NULL
,NULL
,NULL
,NULL
};
554 static const char* evOptions
[evEND
] = {"-linfix","-linacc","-flood","-radfix","-radacc","-radcon","-mon"};
555 static const char* evParams
[evSTEPEND
] ={NULL
,NULL
};
556 static const char* evStepOptions
[evSTEPEND
] = {"-linstep","-accdir","-not_used","-radstep"};
557 static real
* evStepList
[evSTEPEND
];
558 static real radfix
=0.0;
559 static real deltaF0
=150;
560 static real deltaF
=0;
562 static real constEfl
=0.0;
564 static int eqSteps
=0;
565 static int* listen
[evEND
];
567 const real kB
= 2.5 / 300.0; /* k_boltzmann in MD units */
568 static bool bRestrain
= FALSE
;
569 static bool bHesse
=FALSE
;
570 static bool bHarmonic
=FALSE
;
572 { "-mon", FALSE
, etSTR
, {&evSelections
[evMON
]},
573 "Indices of eigenvectors for projections of x (e.g. 1,2-5,9) or 1-100:10 means 1 11 21 31 ... 91" },
574 { "-linfix", FALSE
, etSTR
, {&evSelections
[0]},
575 "Indices of eigenvectors for fixed increment linear sampling" },
576 { "-linacc", FALSE
, etSTR
, {&evSelections
[1]},
577 "Indices of eigenvectors for acceptance linear sampling" },
578 { "-flood", FALSE
, etSTR
, {&evSelections
[2]},
579 "Indices of eigenvectors for flooding"},
580 { "-radfix", FALSE
, etSTR
, {&evSelections
[3]},
581 "Indices of eigenvectors for fixed increment radius expansion" },
582 { "-radacc", FALSE
, etSTR
, {&evSelections
[4]},
583 "Indices of eigenvectors for acceptance radius expansion" },
584 { "-radcon", FALSE
, etSTR
, {&evSelections
[5]},
585 "Indices of eigenvectors for acceptance radius contraction" },
586 { "-outfrq", FALSE
, etINT
, {&edi_params
.outfrq
},
587 "Freqency (in steps) of writing output in .edo file" },
588 { "-slope", FALSE
, etREAL
, { &edi_params
.slope
},
589 "Minimal slope in acceptance radius expansion"},
590 { "-maxedsteps", FALSE
, etINT
, {&edi_params
.maxedsteps
},
591 "Max nr of steps per cycle" },
592 { "-deltaF0", FALSE
,etREAL
, {&deltaF0
},
593 "Target destabilization energy - used for flooding"},
594 { "-deltaF", FALSE
, etREAL
, {&deltaF
},
595 "Start deltaF with this parameter - default 0, i.e. nonzero values only needed for restart"},
596 { "-tau", FALSE
, etREAL
, {&tau
},
597 "Coupling constant for adaption of flooding strength according to deltaF0, 0 = infinity i.e. constant flooding strength"},
598 { "-eqsteps", FALSE
, etINT
, {&eqSteps
},
599 "Number of steps to run without any perturbations "},
600 { "-Eflnull", FALSE
, etREAL
, {&constEfl
},
601 "This is the starting value of the flooding strength. The flooding strength is updated according to the adaptive flooding scheme. To use a constant flooding strength use -tau 0. "},
602 { "-T", FALSE
, etREAL
, {&T
},
603 "T is temperature, the value is needed if you want to do flooding "},
604 { "-alpha",FALSE
,etREAL
,{&alpha
},
605 "Scale width of gaussian flooding potential with alpha^2 "},
606 { "-linstep", FALSE
, etSTR
, {&evParams
[0]},
607 "Stepsizes (nm/step) for fixed increment linear sampling (put in quotes! \"1.0 2.3 5.1 -3.1\")"},
608 { "-accdir", FALSE
, etSTR
, {&evParams
[1]},
609 "Directions for acceptance linear sampling - only sign counts! (put in quotes! \"-1 +1 -1.1\")"},
610 { "-radstep", FALSE
, etREAL
, {&radfix
},
611 "Stepsize (nm/step) for fixed increment radius expansion"},
612 { "-restrain",FALSE
, etBOOL
, {&bRestrain
},
613 "Use the flooding potential with inverted sign -> effects as quasiharmonic restraining potential"},
614 { "-hessian",FALSE
, etBOOL
, {&bHesse
},
615 "The eigenvectors and eigenvalues are from a Hessian matrix"},
616 { "-harmonic",FALSE
, etBOOL
, {&bHarmonic
},
617 "The eigenvalues are interpreted as spring constant"},
619 #define NPA asize(pa)
622 int nvec1
,*eignr1
=NULL
;
623 rvec
*xav1
,**eigvec1
=NULL
;
627 const char *indexfile
;
629 atom_id
*index
,*ifit
;
631 int ev_class
; /* parameter _class i.e. evMON, evRADFIX etc. */
633 real
*eigval1
=NULL
; /* in V3.3 this is parameter of read_eigenvectors */
636 const char *TargetFile
;
637 const char *OriginFile
;
638 const char *EigvecFile
;
642 /*to read topology file*/
651 { efTRN
, "-f", "eigenvec", ffREAD
},
652 { efXVG
, "-eig", "eigenval", ffOPTRD
},
653 { efTPS
, NULL
, NULL
, ffREAD
},
654 { efNDX
, NULL
, NULL
, ffOPTRD
},
655 { efSTX
, "-tar", "target", ffOPTRD
},
656 { efSTX
, "-ori", "origin", ffOPTRD
},
657 { efEDI
, "-o", "sam", ffWRITE
}
659 #define NFILE asize(fnm)
660 edi_params
.outfrq
=100; edi_params
.slope
=0.0; edi_params
.maxedsteps
=0;
661 CopyRight(stderr
,argv
[0]);
662 parse_common_args(&argc
,argv
, 0 ,
663 NFILE
,fnm
,NPA
,pa
,asize(desc
),desc
,0,NULL
,&oenv
);
665 indexfile
=ftp2fn_null(efNDX
,NFILE
,fnm
);
666 EdiFile
=ftp2fn(efEDI
,NFILE
,fnm
);
667 TargetFile
= opt2fn_null("-tar",NFILE
,fnm
);
668 OriginFile
= opt2fn_null("-ori",NFILE
,fnm
);
671 for (ev_class
=0; ev_class
<evEND
; ++ev_class
) {
672 if (opt2parg_bSet(evOptions
[ev_class
],NPA
,pa
)) {
673 /*get list of eigenvectors*/
674 nvecs
=sscan_list(&(listen
[ev_class
]),opt2parg_str(evOptions
[ev_class
],NPA
,pa
),evOptions
[ev_class
]);
675 if (ev_class
<evSTEPEND
-2) {
676 /*if apropriate get list of stepsizes for these eigenvectors*/
677 if (opt2parg_bSet(evStepOptions
[ev_class
],NPA
,pa
))
678 evStepList
[ev_class
]=
679 scan_vecparams(opt2parg_str(evStepOptions
[ev_class
],NPA
,pa
),evStepOptions
[ev_class
],nvecs
);
680 else { /*if list is not given fill with zeros */
681 snew(evStepList
[ev_class
],nvecs
);
682 for (i
=0; i
<nvecs
; i
++)
683 evStepList
[ev_class
][i
]=0.0;
685 } else if (ev_class
== evRADFIX
&& opt2parg_bSet(evStepOptions
[ev_class
],NPA
,pa
)) {
686 snew(evStepList
[ev_class
],nvecs
);
687 for (i
=0; i
<nvecs
; i
++)
688 evStepList
[ev_class
][i
]=radfix
;
690 } else if (ev_class
== evFLOOD
) {
691 snew(evStepList
[ev_class
],nvecs
);
692 } else {}; /*to avoid ambiguity */
693 } else { /* if there are no eigenvectors for this option set list to zero */
694 listen
[ev_class
]=NULL
;
695 snew(listen
[ev_class
],1);
696 listen
[ev_class
][0]=0;
700 /* print the interpreted list of eigenvectors - to give some feedback*/
701 for (ev_class
=0; ev_class
<evEND
; ++ev_class
) {
702 printf("list %s consist of the indices:",evOptions
[ev_class
]);
704 while(listen
[ev_class
][i
])
705 printf("%d ",listen
[ev_class
][i
++]);
710 EigvecFile
=opt2fn("-f",NFILE
,fnm
);
713 /*read eigenvectors from eigvec.trr*/
714 read_eigenvectors(EigvecFile
,&natoms
,&bFit1
,
715 &xref1
,&edi_params
.fitmas
,&xav1
,&edi_params
.pcamas
,&nvec1
,&eignr1
,&eigvec1
,&eigval1
);
717 bTop
=read_tps_conf(ftp2fn(efTPS
,NFILE
,fnm
),
718 title
,&top
,&ePBC
,&xtop
,NULL
,topbox
,0);
722 printf("\nSelect an index group of %d elements that corresponds to the eigenvectors\n",natoms
);
723 get_index(atoms
,indexfile
,1,&i
,&index
,&grpname
); /*if indexfile != NULL parameter 'atoms' is ignored */
725 gmx_fatal(FARGS
,"you selected a group with %d elements instead of %d",
731 if (xref1
==NULL
&& bFit1
) {
732 /* if g_covar used different coordinate groups to fit and to do the PCA */
733 printf("\nNote: the structure in %s should be the same\n"
734 " as the one used for the fit in g_covar\n",ftp2fn(efTPS
,NFILE
,fnm
));
735 printf("\nSelect the index group that was used for the least squares fit in g_covar\n");
736 get_index(atoms
,indexfile
,1,&nfit
,&ifit
,&grpname
);
739 copy_rvec(xtop
[ifit
[i
]],xref1
[i
]);
746 /* if -flood read eigenvalues and store them in evSteplist[evFLODD] */
747 if (listen
[evFLOOD
][0]!=0)
748 read_eigenvalues(listen
[evFLOOD
],opt2fn("-eig",NFILE
,fnm
),evStepList
[evFLOOD
],bHesse
,kB
*T
);
750 /*number of eigenvectors*/
751 edi_params
.ned
=natoms
;
752 edi_params
.flood
.tau
=tau
;
753 edi_params
.flood
.deltaF0
=deltaF0
;
754 edi_params
.flood
.deltaF
=deltaF
;
755 edi_params
.presteps
=eqSteps
;
756 edi_params
.flood
.kT
=kB
*T
;
757 edi_params
.flood
.bHarmonic
=bHarmonic
;
760 /* Trick: invert sign of Efl and alpha2 then this will give the same sign in the exponential and inverted sign outside */
761 edi_params
.flood
.constEfl
=-constEfl
;
762 edi_params
.flood
.alpha2
=-sqr(alpha
);
766 edi_params
.flood
.constEfl
=constEfl
;
767 edi_params
.flood
.alpha2
=sqr(alpha
);
770 /*number of system atoms */
771 edi_params
.nini
=atoms
->nr
;
774 /*store reference and average structure in edi_params*/
775 make_t_edx(&edi_params
.sref
,nfit
,xref1
,ifit
);
776 make_t_edx(&edi_params
.sav
,natoms
,xav1
,index
);
779 /*store target positions in edi_params*/
780 if (opt2bSet("-tar",NFILE
,fnm
)) {
781 get_structure(atoms
,indexfile
,TargetFile
,&edi_params
.star
,nfit
,
784 make_t_edx(&edi_params
.star
,0,NULL
,index
);
785 /*store origin positions*/
786 if (opt2bSet("-ori",NFILE
,fnm
)) {
787 get_structure(atoms
,indexfile
,OriginFile
,&edi_params
.sori
,nfit
,
790 make_t_edx(&edi_params
.sori
,0,NULL
,index
);
793 write_the_whole_thing(ffopen(EdiFile
,"w"), &edi_params
, eigvec1
,nvec1
, listen
, evStepList
);