mengine/src/read_sdf.c

/* NOTICE: this source code file has been modified for use with FreeMOL */
#define EXTERN extern

#include "pcwin.h"
#include "pcmod.h"
#include "atom_k.h"
#include "energies.h"
#include "fix.h"

#define TABULATOR_INCLUDE_IMPLEMENTATION
#include "tabulator.h"

EXTERN struct t_files {
        int nfiles, append, batch, icurrent, ibatno;
        }       files;
EXTERN struct ElementType { char symbol[3];
                             int atomnum;
                             float weight, covradius, vdwradius;
                              int s,p,d,f,type ;
                            } Elements[];
EXTERN struct t_dipolemom {
        double total, xdipole, ydipole, zdipole;
       }  dipolemom;
EXTERN struct t_logp {
        float logp;
        } logp_calc;
EXTERN struct t_vibdata {
        char ptgrp[4];
        float mom_ix,mom_iy,mom_iz;
        float etot,htot,stot,gtot,cptot;
       } vibdata;

// ============================

int make_atom(int, float, float, float,char *);
void make_bond(int, int, int);
int read_sdf(int,int);
int rd_sdf(FILE *);
void write_sdf(int);
void message_alert(char *, char *);
void hdel(int);
FILE * fopen_path ( char * , char * , char * ) ;
int FetchRecord(FILE *, char *);
void avgleg(void);
void get_tag(char *,char *);
// ==================================
/*
 * flags - indicates whether dipole, xlogp or vibrational calculations were done
 * and if so write them to the output file. Look at the definitions in pcmod.h
 *
 */
void write_sdf(int flags)
{
    int i,j,lptest,nbond,junk;
    FILE *wfile = pcmoutfile;
    
    lptest = 0;
    for( i = 1; i <= natom; i++ )
    {
        if( atom[i].mmx_type == 20 )
        {
            lptest = 1;
            hdel( lptest );
            break;
        }
    }
    nbond = 0;
    /*     **  calculate the number of bonds in the molecule ** */
    for( j = 1; j <= natom; j++ )
    {
      for( i = 0; i < MAXIAT; i++ )
      {
         if( atom[j].iat[i] != 0 )
         {
            if( atom[j].iat[i] < j )
               nbond = nbond + 1;
         }
       }
     }
    /*     now write the concord file */
/*
    if (files.append)
        wfile = fopen_path(Savebox.path,Savebox.fname,"a");
    else
        wfile = fopen_path(Savebox.path,Savebox.fname,"w");
*/

    j = strlen(Struct_Title);
    for (i=0; i < j; i++)
    {
        if (Struct_Title[i] == '\n')
        {
            Struct_Title[i] = '\0';
            break;
        }
    }
    fprintf(wfile,"%s\n",Struct_Title);
    fprintf(wfile," PCMODEL  v9.1   1.00000     0.00000\n");       
    fprintf(wfile,"\n");       

    fprintf(wfile,"%3d%3d  0  0  0  0              1 V2000\n",natom,nbond);

    for (i=1; i <= natom; i++)
    {
        junk = 0;
        if (atom[i].mmx_type == 41) junk = 3;
        else if (atom[i].mmx_type == 42) junk = 5;
        else if (atom[i].mmx_type == 66)
        {
            if (atom[i].bo[0] == 1)
               junk = 5;
        }
        fprintf(wfile,"%10.4f%10.4f%10.4f %-3s 0  %d  0  0  0  0 \n",atom[i].x, atom[i].y,
          atom[i].z,Elements[atom[i].atomnum-1].symbol,junk);
    }
    for (i=1; i <= natom; i++)
    {
        for (j=0; j < MAXIAT; j++)
        {
            if (atom[i].iat[j] != 0 && i < atom[i].iat[j])
               fprintf(wfile,"%3d%3d%3d  0\n",i, atom[i].iat[j], atom[i].bo[j]);
        }
    }
    fprintf(wfile,"M  END\n");
    fprintf(wfile,"> <title>\n");
    fprintf(wfile,"%s\n",Struct_Title);
    
    fprintf(wfile,"> <MMFF94 energy>\n");
    fprintf(wfile,"%f\n",energies.total);

    if (flags & DO_DIPOLE) {
      fprintf(wfile,"> <dipole moment>\n");
      fprintf(wfile,"%f\n",dipolemom.total);
    }

    if (flags & DO_XLOGP) {
      fprintf(wfile,"> <xLogP>\n");
      fprintf(wfile,"%f\n",logp_calc.logp);
    }

    if (flags & DO_VIBRATION) {
      fprintf(wfile,"> <Point Group>\n");
      fprintf(wfile,"%s\n",vibdata.ptgrp);
    
      fprintf(wfile,"> <Moments of Inertia>\n");
      fprintf(wfile,"%f8.3  %f8.3  %f8.3 \n",vibdata.mom_ix,vibdata.mom_iy,vibdata.mom_iz);

      fprintf(wfile,"> <thermodynamics dE, dH, S, dG, CP>\n");
      fprintf(wfile,"%f8.3  %f8.3  %f8.3  %f8.3  %f8.3  \n",vibdata.etot, vibdata.htot,
              vibdata.stot,vibdata.gtot,vibdata.cptot);
    }

    fprintf(wfile,"\n");
    fprintf(wfile,"$$$$\n");
//    fclose(wfile);
}

/* ===================================  */
// fast read - assume file is open and positioned
// read structure and down to end $$$$
// and return
int rd_sdf(FILE *rfile)
{
    int i, j, niatom, nibond, ia1, ia2, ia3, ia4, ibond, itype, newatom;
    int ncount,junk,junk1,got_title,istereo,iz,nvalue;
    int jji, jj1, jj2, jj3, jj4;
    int n_row;
    int has_Aromatic, xPlus,yPlus,zPlus, planar;
    int icount,itemp[4];
    int Ret_Val;
    float xtmp, ytmp, ztmp, dz;
    float fconst,min,max;
    char  c1[4],c2[4];
    char  atomchar[3];
    char  inputline[150];
    char  tag[30];
    char ***tab;

     Ret_Val = TRUE;
     got_title = FALSE;
     xPlus = yPlus = zPlus = FALSE;
     if ( 0 == FetchRecord(rfile,inputline) )return -1;
//   sscanf(inputline,"SDF %s",Struct_Title);
     strncpy(Struct_Title, inputline, sizeof(Struct_Title));
     got_title = TRUE;
     /*     if (strlen(inputline) > 4)
     {
         iz = strlen(inputline);
         if (iz > 60) iz = 59;
         for (i=4; i < iz; i++)
           Struct_Title[i-4] = inputline[i];
         Struct_Title[i] = '\0';
        got_title = TRUE;
        } */
     FetchRecord(rfile,inputline); // blank line
     FetchRecord(rfile,inputline); // blank line
     
     FetchRecord(rfile,inputline); // natom and nbond
     for (i=0; i <4; i++)
     {
        c1[i] = inputline[i];
        c2[i] = inputline[i+3];
     }
     c1[3] = '\0';c2[3] = '\0';
     niatom = atoi(c1);
     nibond = atoi(c2); 
     if (niatom == 0)
       return FALSE;

     for (i=0; i < niatom; i++)
     {
        FetchRecord(rfile,inputline);
        sscanf(inputline,"%f %f %f %s %d %d",&xtmp, &ytmp, &ztmp, atomchar,&junk,&junk1);

        itype = 0;
        if (xtmp != 0.0) xPlus= TRUE;
        if (ytmp != 0.0) yPlus= TRUE;
        if (ztmp != 0.0) zPlus= TRUE;

        iz = strlen(atomchar);
        if (itype == 0 && (atomchar[0] == 'N' || atomchar[0] == 'O') && iz == 1)  // nitro fix
        {
            if (atomchar[0] == 'N') itype = 8;
            if (atomchar[0] == 'O') itype = 6;
            
            if (junk1 != 0)
            {
                if (junk1 == 3 && itype == 8)
                  itype = 41;  // N+
                if (junk1 == 5 && itype == 6)
                  itype = 42;  // O-
            }
        }

        newatom = make_atom(itype,xtmp,ytmp,ztmp,atomchar);
        if (itype != 0)
          atom[newatom].mmx_type = itype;
        if (newatom == -1)
        {
          fprintf(pcmlogfile, "Atom %d %s not recognized structure skipped\n",i,atomchar);
            Ret_Val = FALSE;
        }
     }
     has_Aromatic = FALSE;
     
     planar = TRUE;
     if (xPlus && yPlus && zPlus) planar = FALSE;
     
     for (i=0; i < nibond; i++)
     {
        FetchRecord(rfile,inputline);
        for (j=0; j <4; j++)
        {
           c1[j] = inputline[j];
           c2[j] = inputline[j+3];
         }  
        c1[3] = '\0';c2[3] = '\0';
        ia1 = atoi(c1);
        ia2 = atoi(c2);
        istereo = 0;
        sscanf(inputline,"%3d%3d%3d%3d",&junk, &junk1, &ibond,&istereo);
        if (ibond >= 4)
        {
            ibond = 1;
            has_Aromatic = TRUE;
// TJO
            Ret_Val = FALSE;
        }
        make_bond(ia1, ia2, ibond);
        if (istereo == 1 && planar)
        {
            atom[ia2].z += 0.7;
            if (atom[ia2].atomnum == 1)
              atom[ia2].type = 60;
        }
        if (istereo == 6 && planar)
        {
            atom[ia2].z -= 0.7;
            if (atom[ia2].atomnum == 1)
             atom[ia2].type = 60;
        }
     }
// read to end of structure
// parse any tags here
// agreed tags
//  <FIXED_ATOMS>
//  <RESTRAINED_ATOMS>
//  <RESTRAINED_DISTANCES>
//  <RESTRAINED_ANGLES>
//  <RESTRAINED_DIHEDRALS>

     while (FetchRecord(rfile,inputline))
     {
         if (strncasecmp(inputline,"$$$$",4) == 0)
         {
            return Ret_Val;
         } else if (inputline[0] == '>')
         {
           get_tag(inputline,tag);
           if (strcasecmp(tag,"fixed_atoms") == 0)
             {
               tab = tabulator_new_from_file_using_header(rfile,"ATOM",0);
               if (tab)
                 {
                   fprintf(pcmlogfile,"got table\n");
                   n_row = tabulator_height(tab);
                   for (i=0; i < n_row; i++)
                     {
                       ia1 = atoi(tab[i][0]);
                       if (ia1 > 0 && ia1 <= natom)
                         {
                           fx_atom.katom_fix[fx_atom.natom_fix] = ia1;
                           fx_atom.natom_fix++;
                         }
                     }
                 }
             } else if (strcasecmp(tag,"restrained_atoms") == 0)
             {
               tab = tabulator_new_from_file_using_header(rfile,"ATOM1 MAX F_CONST X Y Z",0);
               if (tab)
                 {
                   n_row = tabulator_height(tab);
                   for (i=0; i < n_row; i++)
                     {
                       ia1 = atoi(tab[i][0]);
                       max = atof(tab[i][1]);
                       fconst = atof(tab[i][2]);
                       if (ia1 > 0 && ia1 <= natom)
                         {
                           restrain_atom.katom_restrain[restrain_atom.natom_restrain] = ia1;
                           restrain_atom.restrain_const[restrain_atom.natom_restrain] = fconst;
                           restrain_atom.restrain_max[restrain_atom.natom_restrain] = max;
                           restrain_atom.restrain_position[restrain_atom.natom_restrain][0] = atom[ia1].x; // default positions
                           restrain_atom.restrain_position[restrain_atom.natom_restrain][1] = atom[ia1].y;
                           restrain_atom.restrain_position[restrain_atom.natom_restrain][2] = atom[ia1].z;
                           if (strlen(tab[i][3]) > 0)  // x postion
                             {
                               xtmp = atof(tab[i][3]);
                               restrain_atom.restrain_position[restrain_atom.natom_restrain][0] = xtmp;
                             }
                           if (strlen(tab[i][4]) > 0)  // y postion
                             {
                               xtmp = atof(tab[i][4]);
                               restrain_atom.restrain_position[restrain_atom.natom_restrain][1] = xtmp;
                             }
                           if (strlen(tab[i][5]) > 0)  // y postion
                             {
                               xtmp = atof(tab[i][3]);
                               restrain_atom.restrain_position[restrain_atom.natom_restrain][2] = xtmp;
                             }
                           restrain_atom.natom_restrain++;
                         }
                     }
                 }
             } else if (strcasecmp(tag,"restrained_distances") == 0)
             {
               tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 MIN MAX F_CONST",0);
               if (tab)
                 {
                   n_row = tabulator_height(tab);
                   for (i=0; i < n_row; i++)
                     {
                       ia1 = atoi(tab[i][0]);
                       ia2 = atoi(tab[i][1]);
                       min = atof(tab[i][2]);
                       max = atof(tab[i][3]);
                       fconst = atof(tab[i][4]);
                       if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom))
                         {
                           fx_dist.kdfix[fx_dist.ndfix][0] = ia1;
                           fx_dist.kdfix[fx_dist.ndfix][1] = ia2;
                           fx_dist.fdconst[fx_dist.ndfix] = fconst;
                           fx_dist.min_dist[fx_dist.ndfix] = min;
                           fx_dist.max_dist[fx_dist.ndfix] = max;
                           fx_dist.ndfix++;
                         }
                     }
                 }
             } else if (strcasecmp(tag,"restrained_angles") == 0)
             {
               tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 ATOM3 MIN MAX F_CONST",0);
               if (tab)
                 {
                   n_row = tabulator_height(tab);
                   for (i=0; i < n_row; i++)
                     {
                       ia1 = atoi(tab[i][0]);
                       ia2 = atoi(tab[i][1]);
                       ia3 = atoi(tab[i][2]);
                       min = atof(tab[i][3]);
                       max = atof(tab[i][4]);
                       fconst = atof(tab[i][5]);
                       if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom) && (ia3 > 0 && ia3 <= natom))
                         {
                           fx_angle.kafix[fx_angle.nafix][0] = ia1;
                           fx_angle.kafix[fx_angle.nafix][1] = ia2;
                           fx_angle.kafix[fx_angle.nafix][2] = ia3;
                           fx_angle.faconst[fx_angle.nafix] = fconst;
                           fx_angle.min_ang[fx_angle.nafix] = min;
                           fx_angle.max_ang[fx_angle.nafix] = max;
                           fx_angle.nafix++;
                         }
                     }
                 }
             } else if (strcasecmp(tag,"restrained_dihedrals") == 0)
             {
               tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 ATOM3 ATOM4 MIN MAX F_CONST",0);
               if (tab)
                 {
                   n_row = tabulator_height(tab);
                   for (i=0; i < n_row; i++)
                     {
                       ia1 = atoi(tab[i][0]);
                       ia2 = atoi(tab[i][1]);
                       ia3 = atoi(tab[i][2]);
                       ia4 = atoi(tab[i][3]);
                       min = atof(tab[i][4]);
                       max = atof(tab[i][5]);
                       fconst = atof(tab[i][6]);
                       if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom) && (ia3 > 0 && ia3 <= natom) && (ia4 > 0 && ia4 <= natom))
                         {
                           fx_torsion.ktfix[fx_torsion.ntfix][0] = ia1;
                           fx_torsion.ktfix[fx_torsion.ntfix][1] = ia2;
                           fx_torsion.ktfix[fx_torsion.ntfix][2] = ia3;
                           fx_torsion.ktfix[fx_torsion.ntfix][3] = ia4;
                           fx_torsion.ftconst[fx_torsion.ntfix] = fconst;
                           fx_torsion.min_tor[fx_torsion.ntfix] = min;
                           fx_torsion.max_tor[fx_torsion.ntfix] = max;
                           fx_torsion.ntfix++;
                         }
                     }
                 }
             }
         }
     }
     return Ret_Val;
}
// =====================
void get_tag(char *line,char *tag)
{
  int i,j,icount;
  icount = 0;
  strcpy(tag,"");
  for (i=0; i < strlen(line); i++)
    {
      if (line[i] == '<')
        {
          for (j=i+1; j < strlen(line); j++)
            {
              if (line[j] == '>')
                {
                  tag[icount] = '\0';
                  return;
                } else
                {
                  tag[icount] = line[j];
                  icount++;
                }
            }
        }
    }
}
Revision:	58
Committed:	Mon Dec 1 06:44:59 2008 UTC (13 years, 5 months ago) by wdelano
File size:	13323 byte(s)
Log Message:	code merge 20081130
Line	User	Rev	File contents
1	tjod	48	/* NOTICE: this source code file has been modified for use with FreeMOL */
2	tjod	3	#define EXTERN extern
3
4			#include "pcwin.h"
5			#include "pcmod.h"
6			#include "atom_k.h"
7			#include "energies.h"
8	wdelano	58	#include "fix.h"
9	tjod	3
10	wdelano	58	#define TABULATOR_INCLUDE_IMPLEMENTATION
11			#include "tabulator.h"
12
13	tjod	3	EXTERN struct t_files {
14			int nfiles, append, batch, icurrent, ibatno;
15			} files;
16			EXTERN struct ElementType { char symbol[3];
17			int atomnum;
18			float weight, covradius, vdwradius;
19			int s,p,d,f,type ;
20			} Elements[];
21			EXTERN struct t_dipolemom {
22			double total, xdipole, ydipole, zdipole;
23			} dipolemom;
24			EXTERN struct t_logp {
25			float logp;
26			} logp_calc;
27			EXTERN struct t_vibdata {
28			char ptgrp[4];
29			float mom_ix,mom_iy,mom_iz;
30			float etot,htot,stot,gtot,cptot;
31			} vibdata;
32
33	wdelano	58	// ============================
34
35	tjod	3	int make_atom(int, float, float, float,char *);
36			void make_bond(int, int, int);
37			int read_sdf(int,int);
38			int rd_sdf(FILE *);
39			void write_sdf(int);
40			void message_alert(char , char );
41			void hdel(int);
42			FILE * fopen_path ( char * , char * , char * ) ;
43			int FetchRecord(FILE , char );
44			void avgleg(void);
45	wdelano	58	void get_tag(char ,char );
46			// ==================================
47	tjod	3	/*
48			* flags - indicates whether dipole, xlogp or vibrational calculations were done
49			* and if so write them to the output file. Look at the definitions in pcmod.h
50			*
51			*/
52			void write_sdf(int flags)
53			{
54			int i,j,lptest,nbond,junk;
55	wdelano	58	FILE *wfile = pcmoutfile;
56	tjod	3
57			lptest = 0;
58			for( i = 1; i <= natom; i++ )
59			{
60			if( atom[i].mmx_type == 20 )
61			{
62			lptest = 1;
63			hdel( lptest );
64			break;
65			}
66			}
67			nbond = 0;
68			/* calculate the number of bonds in the molecule */
69			for( j = 1; j <= natom; j++ )
70			{
71			for( i = 0; i < MAXIAT; i++ )
72			{
73			if( atom[j].iat[i] != 0 )
74			{
75			if( atom[j].iat[i] < j )
76			nbond = nbond + 1;
77			}
78			}
79			}
80			/* now write the concord file */
81	tjod	15	/*
82	tjod	3	if (files.append)
83			wfile = fopen_path(Savebox.path,Savebox.fname,"a");
84			else
85			wfile = fopen_path(Savebox.path,Savebox.fname,"w");
86	tjod	15	*/
87	tjod	3
88			j = strlen(Struct_Title);
89			for (i=0; i < j; i++)
90			{
91			if (Struct_Title[i] == '\n')
92			{
93			Struct_Title[i] = '\0';
94			break;
95			}
96			}
97			fprintf(wfile,"%s\n",Struct_Title);
98			fprintf(wfile," PCMODEL v9.1 1.00000 0.00000\n");
99			fprintf(wfile,"\n");
100
101			fprintf(wfile,"%3d%3d 0 0 0 0 1 V2000\n",natom,nbond);
102
103			for (i=1; i <= natom; i++)
104			{
105			junk = 0;
106			if (atom[i].mmx_type == 41) junk = 3;
107			else if (atom[i].mmx_type == 42) junk = 5;
108			else if (atom[i].mmx_type == 66)
109			{
110			if (atom[i].bo[0] == 1)
111			junk = 5;
112			}
113			fprintf(wfile,"%10.4f%10.4f%10.4f %-3s 0 %d 0 0 0 0 \n",atom[i].x, atom[i].y,
114			atom[i].z,Elements[atom[i].atomnum-1].symbol,junk);
115			}
116			for (i=1; i <= natom; i++)
117			{
118			for (j=0; j < MAXIAT; j++)
119			{
120			if (atom[i].iat[j] != 0 && i < atom[i].iat[j])
121			fprintf(wfile,"%3d%3d%3d 0\n",i, atom[i].iat[j], atom[i].bo[j]);
122			}
123			}
124			fprintf(wfile,"M END\n");
125			fprintf(wfile,"> <title>\n");
126			fprintf(wfile,"%s\n",Struct_Title);
127
128			fprintf(wfile,"> <MMFF94 energy>\n");
129			fprintf(wfile,"%f\n",energies.total);
130
131			if (flags & DO_DIPOLE) {
132			fprintf(wfile,"> <dipole moment>\n");
133			fprintf(wfile,"%f\n",dipolemom.total);
134			}
135
136			if (flags & DO_XLOGP) {
137			fprintf(wfile,"> <xLogP>\n");
138			fprintf(wfile,"%f\n",logp_calc.logp);
139			}
140
141			if (flags & DO_VIBRATION) {
142			fprintf(wfile,"> <Point Group>\n");
143			fprintf(wfile,"%s\n",vibdata.ptgrp);
144
145			fprintf(wfile,"> <Moments of Inertia>\n");
146			fprintf(wfile,"%f8.3 %f8.3 %f8.3 \n",vibdata.mom_ix,vibdata.mom_iy,vibdata.mom_iz);
147
148			fprintf(wfile,"> <thermodynamics dE, dH, S, dG, CP>\n");
149			fprintf(wfile,"%f8.3 %f8.3 %f8.3 %f8.3 %f8.3 \n",vibdata.etot, vibdata.htot,
150			vibdata.stot,vibdata.gtot,vibdata.cptot);
151			}
152
153			fprintf(wfile,"\n");
154			fprintf(wfile,"$$$$\n");
155	tjod	15	// fclose(wfile);
156	tjod	3	}
157	wdelano	58
158	tjod	3	/* =================================== */
159			// fast read - assume file is open and positioned
160			// read structure and down to end $$$$
161			// and return
162			int rd_sdf(FILE *rfile)
163			{
164	wdelano	58	int i, j, niatom, nibond, ia1, ia2, ia3, ia4, ibond, itype, newatom;
165			int ncount,junk,junk1,got_title,istereo,iz,nvalue;
166	tjod	3	int jji, jj1, jj2, jj3, jj4;
167	wdelano	58	int n_row;
168	tjod	3	int has_Aromatic, xPlus,yPlus,zPlus, planar;
169			int icount,itemp[4];
170			int Ret_Val;
171			float xtmp, ytmp, ztmp, dz;
172	wdelano	58	float fconst,min,max;
173	tjod	3	char c1[4],c2[4];
174			char atomchar[3];
175			char inputline[150];
176	wdelano	58	char tag[30];
177			char ***tab;
178	tjod	3
179			Ret_Val = TRUE;
180			got_title = FALSE;
181			xPlus = yPlus = zPlus = FALSE;
182	tjod	15	if ( 0 == FetchRecord(rfile,inputline) )return -1;
183			// sscanf(inputline,"SDF %s",Struct_Title);
184			strncpy(Struct_Title, inputline, sizeof(Struct_Title));
185	tjod	3	got_title = TRUE;
186			/* if (strlen(inputline) > 4)
187			{
188			iz = strlen(inputline);
189			if (iz > 60) iz = 59;
190			for (i=4; i < iz; i++)
191			Struct_Title[i-4] = inputline[i];
192			Struct_Title[i] = '\0';
193			got_title = TRUE;
194			} */
195			FetchRecord(rfile,inputline); // blank line
196			FetchRecord(rfile,inputline); // blank line
197
198			FetchRecord(rfile,inputline); // natom and nbond
199			for (i=0; i <4; i++)
200			{
201			c1[i] = inputline[i];
202			c2[i] = inputline[i+3];
203			}
204			c1[3] = '\0';c2[3] = '\0';
205			niatom = atoi(c1);
206			nibond = atoi(c2);
207			if (niatom == 0)
208			return FALSE;
209
210			for (i=0; i < niatom; i++)
211			{
212			FetchRecord(rfile,inputline);
213			sscanf(inputline,"%f %f %f %s %d %d",&xtmp, &ytmp, &ztmp, atomchar,&junk,&junk1);
214
215			itype = 0;
216			if (xtmp != 0.0) xPlus= TRUE;
217			if (ytmp != 0.0) yPlus= TRUE;
218			if (ztmp != 0.0) zPlus= TRUE;
219
220			iz = strlen(atomchar);
221			if (itype == 0 && (atomchar[0] == 'N' \|\| atomchar[0] == 'O') && iz == 1) // nitro fix
222			{
223			if (atomchar[0] == 'N') itype = 8;
224			if (atomchar[0] == 'O') itype = 6;
225
226			if (junk1 != 0)
227			{
228			if (junk1 == 3 && itype == 8)
229			itype = 41; // N+
230			if (junk1 == 5 && itype == 6)
231			itype = 42; // O-
232			}
233			}
234
235			newatom = make_atom(itype,xtmp,ytmp,ztmp,atomchar);
236			if (itype != 0)
237			atom[newatom].mmx_type = itype;
238			if (newatom == -1)
239			{
240	wdelano	58	fprintf(pcmlogfile, "Atom %d %s not recognized structure skipped\n",i,atomchar);
241	tjod	3	Ret_Val = FALSE;
242			}
243			}
244			has_Aromatic = FALSE;
245
246			planar = TRUE;
247			if (xPlus && yPlus && zPlus) planar = FALSE;
248
249			for (i=0; i < nibond; i++)
250			{
251			FetchRecord(rfile,inputline);
252			for (j=0; j <4; j++)
253			{
254			c1[j] = inputline[j];
255			c2[j] = inputline[j+3];
256			}
257			c1[3] = '\0';c2[3] = '\0';
258			ia1 = atoi(c1);
259			ia2 = atoi(c2);
260			istereo = 0;
261			sscanf(inputline,"%3d%3d%3d%3d",&junk, &junk1, &ibond,&istereo);
262			if (ibond >= 4)
263			{
264			ibond = 1;
265			has_Aromatic = TRUE;
266	tjod	31	// TJO
267			Ret_Val = FALSE;
268	tjod	3	}
269			make_bond(ia1, ia2, ibond);
270			if (istereo == 1 && planar)
271			{
272			atom[ia2].z += 0.7;
273			if (atom[ia2].atomnum == 1)
274			atom[ia2].type = 60;
275			}
276			if (istereo == 6 && planar)
277			{
278			atom[ia2].z -= 0.7;
279			if (atom[ia2].atomnum == 1)
280			atom[ia2].type = 60;
281			}
282			}
283			// read to end of structure
284	wdelano	58	// parse any tags here
285			// agreed tags
286			// <FIXED_ATOMS>
287			// <RESTRAINED_ATOMS>
288			// <RESTRAINED_DISTANCES>
289			// <RESTRAINED_ANGLES>
290			// <RESTRAINED_DIHEDRALS>
291
292	tjod	3	while (FetchRecord(rfile,inputline))
293			{
294			if (strncasecmp(inputline,"$$$$",4) == 0)
295			{
296			return Ret_Val;
297	wdelano	58	} else if (inputline[0] == '>')
298			{
299			get_tag(inputline,tag);
300			if (strcasecmp(tag,"fixed_atoms") == 0)
301			{
302			tab = tabulator_new_from_file_using_header(rfile,"ATOM",0);
303			if (tab)
304			{
305			fprintf(pcmlogfile,"got table\n");
306			n_row = tabulator_height(tab);
307			for (i=0; i < n_row; i++)
308			{
309			ia1 = atoi(tab[i][0]);
310			if (ia1 > 0 && ia1 <= natom)
311			{
312			fx_atom.katom_fix[fx_atom.natom_fix] = ia1;
313			fx_atom.natom_fix++;
314			}
315			}
316			}
317			} else if (strcasecmp(tag,"restrained_atoms") == 0)
318			{
319			tab = tabulator_new_from_file_using_header(rfile,"ATOM1 MAX F_CONST X Y Z",0);
320			if (tab)
321			{
322			n_row = tabulator_height(tab);
323			for (i=0; i < n_row; i++)
324			{
325			ia1 = atoi(tab[i][0]);
326			max = atof(tab[i][1]);
327			fconst = atof(tab[i][2]);
328			if (ia1 > 0 && ia1 <= natom)
329			{
330			restrain_atom.katom_restrain[restrain_atom.natom_restrain] = ia1;
331			restrain_atom.restrain_const[restrain_atom.natom_restrain] = fconst;
332			restrain_atom.restrain_max[restrain_atom.natom_restrain] = max;
333			restrain_atom.restrain_position[restrain_atom.natom_restrain][0] = atom[ia1].x; // default positions
334			restrain_atom.restrain_position[restrain_atom.natom_restrain][1] = atom[ia1].y;
335			restrain_atom.restrain_position[restrain_atom.natom_restrain][2] = atom[ia1].z;
336			if (strlen(tab[i][3]) > 0) // x postion
337			{
338			xtmp = atof(tab[i][3]);
339			restrain_atom.restrain_position[restrain_atom.natom_restrain][0] = xtmp;
340			}
341			if (strlen(tab[i][4]) > 0) // y postion
342			{
343			xtmp = atof(tab[i][4]);
344			restrain_atom.restrain_position[restrain_atom.natom_restrain][1] = xtmp;
345			}
346			if (strlen(tab[i][5]) > 0) // y postion
347			{
348			xtmp = atof(tab[i][3]);
349			restrain_atom.restrain_position[restrain_atom.natom_restrain][2] = xtmp;
350			}
351			restrain_atom.natom_restrain++;
352			}
353			}
354			}
355			} else if (strcasecmp(tag,"restrained_distances") == 0)
356			{
357			tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 MIN MAX F_CONST",0);
358			if (tab)
359			{
360			n_row = tabulator_height(tab);
361			for (i=0; i < n_row; i++)
362			{
363			ia1 = atoi(tab[i][0]);
364			ia2 = atoi(tab[i][1]);
365			min = atof(tab[i][2]);
366			max = atof(tab[i][3]);
367			fconst = atof(tab[i][4]);
368			if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom))
369			{
370			fx_dist.kdfix[fx_dist.ndfix][0] = ia1;
371			fx_dist.kdfix[fx_dist.ndfix][1] = ia2;
372			fx_dist.fdconst[fx_dist.ndfix] = fconst;
373			fx_dist.min_dist[fx_dist.ndfix] = min;
374			fx_dist.max_dist[fx_dist.ndfix] = max;
375			fx_dist.ndfix++;
376			}
377			}
378			}
379			} else if (strcasecmp(tag,"restrained_angles") == 0)
380			{
381			tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 ATOM3 MIN MAX F_CONST",0);
382			if (tab)
383			{
384			n_row = tabulator_height(tab);
385			for (i=0; i < n_row; i++)
386			{
387			ia1 = atoi(tab[i][0]);
388			ia2 = atoi(tab[i][1]);
389			ia3 = atoi(tab[i][2]);
390			min = atof(tab[i][3]);
391			max = atof(tab[i][4]);
392			fconst = atof(tab[i][5]);
393			if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom) && (ia3 > 0 && ia3 <= natom))
394			{
395			fx_angle.kafix[fx_angle.nafix][0] = ia1;
396			fx_angle.kafix[fx_angle.nafix][1] = ia2;
397			fx_angle.kafix[fx_angle.nafix][2] = ia3;
398			fx_angle.faconst[fx_angle.nafix] = fconst;
399			fx_angle.min_ang[fx_angle.nafix] = min;
400			fx_angle.max_ang[fx_angle.nafix] = max;
401			fx_angle.nafix++;
402			}
403			}
404			}
405			} else if (strcasecmp(tag,"restrained_dihedrals") == 0)
406			{
407			tab = tabulator_new_from_file_using_header(rfile,"ATOM1 ATOM2 ATOM3 ATOM4 MIN MAX F_CONST",0);
408			if (tab)
409			{
410			n_row = tabulator_height(tab);
411			for (i=0; i < n_row; i++)
412			{
413			ia1 = atoi(tab[i][0]);
414			ia2 = atoi(tab[i][1]);
415			ia3 = atoi(tab[i][2]);
416			ia4 = atoi(tab[i][3]);
417			min = atof(tab[i][4]);
418			max = atof(tab[i][5]);
419			fconst = atof(tab[i][6]);
420			if ((ia1 > 0 && ia1 <= natom) && (ia2 > 0 && ia2 < natom) && (ia3 > 0 && ia3 <= natom) && (ia4 > 0 && ia4 <= natom))
421			{
422			fx_torsion.ktfix[fx_torsion.ntfix][0] = ia1;
423			fx_torsion.ktfix[fx_torsion.ntfix][1] = ia2;
424			fx_torsion.ktfix[fx_torsion.ntfix][2] = ia3;
425			fx_torsion.ktfix[fx_torsion.ntfix][3] = ia4;
426			fx_torsion.ftconst[fx_torsion.ntfix] = fconst;
427			fx_torsion.min_tor[fx_torsion.ntfix] = min;
428			fx_torsion.max_tor[fx_torsion.ntfix] = max;
429			fx_torsion.ntfix++;
430			}
431			}
432			}
433			}
434	tjod	3	}
435			}
436			return Ret_Val;
437			}
438	wdelano	58	// =====================
439			void get_tag(char line,char tag)
440	tjod	3	{
441	wdelano	58	int i,j,icount;
442			icount = 0;
443			strcpy(tag,"");
444			for (i=0; i < strlen(line); i++)
445	tjod	3	{
446	wdelano	58	if (line[i] == '<')
447			{
448			for (j=i+1; j < strlen(line); j++)
449			{
450			if (line[j] == '>')
451			{
452			tag[icount] = '\0';
453			return;
454			} else
455			{
456			tag[icount] = line[j];
457			icount++;
458			}
459			}
460			}
461	tjod	3	}
462			}