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SOIalign.h
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SOIalign.h
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#ifndef SOIalign_h
#define SOIalign_h 1
#include "TMalign.h"
void print_invmap(int *invmap, const int ylen)
{
int i,j;
for (j=0;j<ylen;j++)
{
i=invmap[j];
if (i>=0) cout<<" ("<<i<<","<<j<<")";
}
cout<<endl;
}
void assign_sec_bond(int **secx_bond, const char *secx, const int xlen)
{
int i,j;
int starti=-1;
int endi=-1;
char ss;
char prev_ss=0;
for (i=0; i<xlen; i++)
{
ss=secx[i];
secx_bond[i][0]=secx_bond[i][1]=-1;
if (ss!=prev_ss && !(ss=='C' && prev_ss=='T')
&& !(ss=='T' && prev_ss=='C'))
{
if (starti>=0) // previous SSE end
{
endi=i;
for (j=starti;j<endi;j++)
{
secx_bond[j][0]=starti;
secx_bond[j][1]=endi;
}
}
if (ss=='H' || ss=='E' || ss=='<' || ss=='>') starti=i;
else starti=-1;
}
prev_ss=secx[i];
}
if (starti>=0) // previous SSE end
{
endi=i;
for (j=starti;j<endi;j++)
{
secx_bond[j][0]=starti;
secx_bond[j][1]=endi;
}
}
for (i=0;i<xlen;i++) if (secx_bond[i][1]-secx_bond[i][0]==1)
secx_bond[i][0]=secx_bond[i][1]=-1;
}
void getCloseK(double **xa, const int xlen, const int closeK_opt, double **xk)
{
double **score;
NewArray(&score, xlen+1, xlen+1);
vector<pair<double,int> > close_idx_vec(xlen, make_pair(0,0));
int i,j,k;
for (i=0;i<xlen;i++)
{
score[i+1][i+1]=0;
for (j=i+1;j<xlen;j++) score[j+1][i+1]=score[i+1][j+1]=dist(xa[i], xa[j]);
}
for (i=0;i<xlen;i++)
{
for (j=0;j<xlen;j++)
{
close_idx_vec[j].first=score[i+1][j+1];
close_idx_vec[j].second=j;
}
sort(close_idx_vec.begin(), close_idx_vec.end());
for (k=0;k<closeK_opt;k++)
{
j=close_idx_vec[k % xlen].second;
xk[i*closeK_opt+k][0]=xa[j][0];
xk[i*closeK_opt+k][1]=xa[j][1];
xk[i*closeK_opt+k][2]=xa[j][2];
}
}
/* clean up */
vector<pair<double,int> >().swap(close_idx_vec);
DeleteArray(&score, xlen+1);
}
/* check if pairing i to j conform to sequantiality within the SSE */
inline bool sec2sq(const int i, const int j,
int **secx_bond, int **secy_bond, int *fwdmap, int *invmap)
{
if (i<0 || j<0) return true;
int ii,jj;
if (secx_bond[i][0]>=0)
{
for (ii=secx_bond[i][0];ii<secx_bond[i][1];ii++)
{
jj=fwdmap[ii];
if (jj>=0 && (i-ii)*(j-jj)<=0) return false;
}
}
if (secy_bond[j][0]>=0)
{
for (jj=secy_bond[j][0];jj<secy_bond[j][1];jj++)
{
ii=invmap[jj];
if (ii>=0 && (i-ii)*(j-jj)<=0) return false;
}
}
return true;
}
void soi_egs(double **score, const int xlen, const int ylen, int *invmap,
int **secx_bond, int **secy_bond, const int mm_opt)
{
int i,j;
int *fwdmap=new int[xlen]; // j=fwdmap[i];
for (i=0; i<xlen; i++) fwdmap[i]=-1;
for (j=0; j<ylen; j++)
{
i=invmap[j];
if (i>=0) fwdmap[i]=j;
}
/* stage 1 - make initial assignment, starting from the highest score pair */
double max_score;
int maxi,maxj;
while(1)
{
max_score=0;
maxi=maxj=-1;
for (i=0;i<xlen;i++)
{
if (fwdmap[i]>=0) continue;
for (j=0;j<ylen;j++)
{
if (invmap[j]>=0 || score[i+1][j+1]<=max_score) continue;
if (mm_opt==6 && !sec2sq(i,j,secx_bond,secy_bond,
fwdmap,invmap)) continue;
maxi=i;
maxj=j;
max_score=score[i+1][j+1];
}
}
if (maxi<0) break; // no assignment;
invmap[maxj]=maxi;
fwdmap[maxi]=maxj;
}
double total_score=0;
for (j=0;j<ylen;j++)
{
i=invmap[j];
if (i>=0) total_score+=score[i+1][j+1];
}
/* stage 2 - swap assignment until total score cannot be improved */
int iter;
int oldi,oldj;
double delta_score;
for (iter=0; iter<getmin(xlen,ylen)*5; iter++)
{
//cout<<"total_score="<<total_score<<".iter="<<iter<<endl;
//print_invmap(invmap,ylen);
delta_score=-1;
for (i=0;i<xlen;i++)
{
oldj=fwdmap[i];
for (j=0;j<ylen;j++)
{
oldi=invmap[j];
if (score[i+1][j+1]<=0 || oldi==i) continue;
if (mm_opt==6 && (!sec2sq(i,j,secx_bond,secy_bond,fwdmap,invmap) ||
!sec2sq(oldi,oldj,secx_bond,secy_bond,fwdmap,invmap)))
continue;
delta_score=score[i+1][j+1];
if (oldi>=0 && oldj>=0) delta_score+=score[oldi+1][oldj+1];
if (oldi>=0) delta_score-=score[oldi+1][j+1];
if (oldj>=0) delta_score-=score[i+1][oldj+1];
if (delta_score>0) // successful swap
{
fwdmap[i]=j;
if (oldi>=0) fwdmap[oldi]=oldj;
invmap[j]=i;
if (oldj>=0) invmap[oldj]=oldi;
total_score+=delta_score;
break;
}
}
}
if (delta_score<=0) break; // cannot make further swap
}
/* clean up */
delete[]fwdmap;
}
/* entry function for se
* u_opt corresponds to option -L
* if u_opt==2, use d0 from Lnorm_ass for alignment
* */
int soi_se_main(
double **xa, double **ya, const char *seqx, const char *seqy,
double &TM1, double &TM2, double &TM3, double &TM4, double &TM5,
double &d0_0, double &TM_0,
double &d0A, double &d0B, double &d0u, double &d0a, double &d0_out,
string &seqM, string &seqxA, string &seqyA,
double &rmsd0, int &L_ali, double &Liden,
double &TM_ali, double &rmsd_ali, int &n_ali, int &n_ali8,
const int xlen, const int ylen,
const double Lnorm_ass, const double d0_scale, const bool i_opt,
const bool a_opt, const int u_opt, const bool d_opt, const int mol_type,
const int outfmt_opt, int *invmap, double *dist_list,
int **secx_bond, int **secy_bond, const int mm_opt)
{
double D0_MIN; //for d0
double Lnorm; //normalization length
double score_d8,d0,d0_search,dcu0;//for TMscore search
double **score; // score for aligning a residue pair
bool **path; // for dynamic programming
double **val; // for dynamic programming
int *m1=NULL;
int *m2=NULL;
int i,j;
double d;
if (outfmt_opt<2)
{
m1=new int[xlen]; //alignd index in x
m2=new int[ylen]; //alignd index in y
}
/***********************/
/* allocate memory */
/***********************/
NewArray(&score, xlen+1, ylen+1);
NewArray(&path, xlen+1, ylen+1);
NewArray(&val, xlen+1, ylen+1);
//int *invmap = new int[ylen+1];
/* set d0 */
parameter_set4search(xlen, ylen, D0_MIN, Lnorm,
score_d8, d0, d0_search, dcu0); // set score_d8
parameter_set4final(xlen, D0_MIN, Lnorm,
d0B, d0_search, mol_type); // set d0B
parameter_set4final(ylen, D0_MIN, Lnorm,
d0A, d0_search, mol_type); // set d0A
if (a_opt)
parameter_set4final((xlen+ylen)*0.5, D0_MIN, Lnorm,
d0a, d0_search, mol_type); // set d0a
if (u_opt)
{
parameter_set4final(Lnorm_ass, D0_MIN, Lnorm,
d0u, d0_search, mol_type); // set d0u
if (u_opt==2)
{
parameter_set4search(Lnorm_ass, Lnorm_ass, D0_MIN, Lnorm,
score_d8, d0, d0_search, dcu0); // set score_d8
}
}
/* perform alignment */
for(j=0; j<ylen; j++) invmap[j]=-1;
double d02=d0*d0;
double score_d82=score_d8*score_d8;
double d2;
for(i=0; i<xlen; i++)
{
for(j=0; j<ylen; j++)
{
d2=dist(xa[i], ya[j]);
if (d2>score_d82) score[i+1][j+1]=0;
else score[i+1][j+1]=1./(1+ d2/d02);
}
}
if (mm_opt==6) NWDP_TM(score, path, val, xlen, ylen, -0.6, invmap);
soi_egs(score, xlen, ylen, invmap, secx_bond, secy_bond, mm_opt);
rmsd0=TM1=TM2=TM3=TM4=TM5=0;
int k=0;
n_ali=0;
n_ali8=0;
for(j=0; j<ylen; j++)
{
i=invmap[j];
dist_list[j]=-1;
if(i>=0)//aligned
{
n_ali++;
d=sqrt(dist(&xa[i][0], &ya[j][0]));
dist_list[j]=d;
if (score[i+1][j+1]>0)
{
if (outfmt_opt<2)
{
m1[k]=i;
m2[k]=j;
}
k++;
TM2+=1/(1+(d/d0B)*(d/d0B)); // chain_1
TM1+=1/(1+(d/d0A)*(d/d0A)); // chain_2
if (a_opt) TM3+=1/(1+(d/d0a)*(d/d0a)); // -a
if (u_opt) TM4+=1/(1+(d/d0u)*(d/d0u)); // -u
if (d_opt) TM5+=1/(1+(d/d0_scale)*(d/d0_scale)); // -d
rmsd0+=d*d;
}
}
}
n_ali8=k;
TM2/=xlen;
TM1/=ylen;
TM3/=(xlen+ylen)*0.5;
TM4/=Lnorm_ass;
TM5/=ylen;
if (n_ali8) rmsd0=sqrt(rmsd0/n_ali8);
if (outfmt_opt>=2)
{
DeleteArray(&score, xlen+1);
return 0;
}
/* extract aligned sequence */
int ali_len=xlen+ylen;
for (j=0;j<ylen;j++) ali_len-=(invmap[j]>=0);
seqxA.assign(ali_len,'-');
seqM.assign( ali_len,' ');
seqyA.assign(ali_len,'-');
int *fwdmap = new int [xlen+1];
for (i=0;i<xlen;i++) fwdmap[i]=-1;
for (j=0;j<ylen;j++)
{
seqyA[j]=seqy[j];
i=invmap[j];
if (i<0) continue;
if (sqrt(dist(xa[i], ya[j]))<d0_out) seqM[j]=':';
else seqM[j]='.';
fwdmap[i]=j;
seqxA[j]=seqx[i];
Liden+=(seqxA[k]==seqyA[k]);
}
k=0;
for (i=0;i<xlen;i++)
{
j=fwdmap[i];
if (j>=0) continue;
seqxA[ylen+k]=seqx[i];
k++;
}
/* free memory */
delete [] fwdmap;
delete [] m1;
delete [] m2;
DeleteArray(&score, xlen+1);
DeleteArray(&path, xlen+1);
DeleteArray(&val, xlen+1);
return 0; // zero for no exception
}
inline void SOI_super2score(double **xt, double **ya, const int xlen,
const int ylen, double **score, double d0, double score_d8)
{
int i,j;
double d02=d0*d0;
double score_d82=score_d8*score_d8;
double d2;
for (i=0; i<xlen; i++)
{
for(j=0; j<ylen; j++)
{
d2=dist(xt[i], ya[j]);
if (d2>score_d82) score[i+1][j+1]=0;
else score[i+1][j+1]=1./(1+ d2/d02);
}
}
}
//heuristic run of dynamic programing iteratively to find the best alignment
//input: initial rotation matrix t, u
// vectors x and y, d0
//output: best alignment that maximizes the TMscore, will be stored in invmap
double SOI_iter(double **r1, double **r2, double **xtm, double **ytm,
double **xt, double **score, bool **path, double **val, double **xa, double **ya,
int xlen, int ylen, double t[3], double u[3][3], int *invmap0,
int iteration_max, double local_d0_search,
double Lnorm, double d0, double score_d8,
int **secx_bond, int **secy_bond, const int mm_opt, const bool init_invmap=false)
{
double rmsd;
int *invmap=new int[ylen+1];
int iteration, i, j, k;
double tmscore, tmscore_max, tmscore_old=0;
tmscore_max=-1;
//double d01=d0+1.5;
double d02=d0*d0;
double score_d82=score_d8*score_d8;
double d2;
for (iteration=0; iteration<iteration_max; iteration++)
{
if (iteration==0 && init_invmap)
for (j=0;j<ylen;j++) invmap[j]=invmap0[j];
else
{
for (j=0; j<ylen; j++) invmap[j]=-1;
if (mm_opt==6) NWDP_TM(score, path, val, xlen, ylen, -0.6, invmap);
}
soi_egs(score, xlen, ylen, invmap, secx_bond, secy_bond, mm_opt);
k=0;
for (j=0; j<ylen; j++)
{
i=invmap[j];
if (i<0) continue;
xtm[k][0]=xa[i][0];
xtm[k][1]=xa[i][1];
xtm[k][2]=xa[i][2];
ytm[k][0]=ya[j][0];
ytm[k][1]=ya[j][1];
ytm[k][2]=ya[j][2];
k++;
}
tmscore = TMscore8_search(r1, r2, xtm, ytm, xt, k, t, u,
40, 8, &rmsd, local_d0_search, Lnorm, score_d8, d0);
if (tmscore>tmscore_max)
{
tmscore_max=tmscore;
for (j=0; j<ylen; j++) invmap0[j]=invmap[j];
}
if (iteration>0 && fabs(tmscore_old-tmscore)<0.000001) break;
tmscore_old=tmscore;
do_rotation(xa, xt, xlen, t, u);
SOI_super2score(xt, ya, xlen, ylen, score, d0, score_d8);
}// for iteration
delete []invmap;
return tmscore_max;
}
void get_SOI_initial_assign(double **xk, double **yk, const int closeK_opt,
double **score, bool **path, double **val, const int xlen, const int ylen,
double t[3], double u[3][3], int invmap[],
double local_d0_search, double d0, double score_d8,
int **secx_bond, int **secy_bond, const int mm_opt)
{
int i,j,k;
double **xfrag;
double **xtran;
double **yfrag;
NewArray(&xfrag, closeK_opt, 3);
NewArray(&xtran, closeK_opt, 3);
NewArray(&yfrag, closeK_opt, 3);
double rmsd;
double d02=d0*d0;
double score_d82=score_d8*score_d8;
double d2;
/* fill in score */
for (i=0;i<xlen;i++)
{
for (k=0;k<closeK_opt;k++)
{
xfrag[k][0]=xk[i*closeK_opt+k][0];
xfrag[k][1]=xk[i*closeK_opt+k][1];
xfrag[k][2]=xk[i*closeK_opt+k][2];
}
for (j=0;j<ylen;j++)
{
for (k=0;k<closeK_opt;k++)
{
yfrag[k][0]=yk[j*closeK_opt+k][0];
yfrag[k][1]=yk[j*closeK_opt+k][1];
yfrag[k][2]=yk[j*closeK_opt+k][2];
}
Kabsch(xfrag, yfrag, closeK_opt, 1, &rmsd, t, u);
do_rotation(xfrag, xtran, closeK_opt, t, u);
//for (k=0; k<closeK_opt; k++)
//{
//d2=dist(xtran[k], yfrag[k]);
//if (d2>score_d82) score[i+1][j+1]=0;
//else score[i+1][j+1]=1./(1+d2/d02);
//}
k=closeK_opt-1;
d2=dist(xtran[k], yfrag[k]);
if (d2>score_d82) score[i+1][j+1]=0;
else score[i+1][j+1]=1./(1+d2/d02);
}
}
/* initial assignment */
for (j=0;j<ylen;j++) invmap[j]=-1;
if (mm_opt==6) NWDP_TM(score, path, val, xlen, ylen, -0.6, invmap);
for (j=0; j<ylen;j++) i=invmap[j];
soi_egs(score, xlen, ylen, invmap, secx_bond, secy_bond, mm_opt);
/* clean up */
DeleteArray(&xfrag, closeK_opt);
DeleteArray(&xtran, closeK_opt);
DeleteArray(&yfrag, closeK_opt);
}
void SOI_assign2super(double **r1, double **r2, double **xtm, double **ytm,
double **xt, double **xa, double **ya,
const int xlen, const int ylen, double t[3], double u[3][3], int invmap[],
double local_d0_search, double Lnorm, double d0, double score_d8)
{
int i,j,k;
double rmsd;
double d02=d0*d0;
double score_d82=score_d8*score_d8;
double d2;
k=0;
for (j=0; j<ylen; j++)
{
i=invmap[j];
if (i<0) continue;
xtm[k][0]=xa[i][0];
xtm[k][1]=xa[i][1];
xtm[k][2]=xa[i][2];
ytm[k][0]=ya[j][0];
ytm[k][1]=ya[j][1];
ytm[k][2]=ya[j][2];
k++;
}
TMscore8_search(r1, r2, xtm, ytm, xt, k, t, u,
40, 8, &rmsd, local_d0_search, Lnorm, score_d8, d0);
do_rotation(xa, xt, xlen, t, u);
}
/* entry function for TM-align with circular permutation
* i_opt, a_opt, u_opt, d_opt, TMcut are not implemented yet */
int SOIalign_main(double **xa, double **ya,
double **xk, double **yk, const int closeK_opt,
const char *seqx, const char *seqy, const char *secx, const char *secy,
double t0[3], double u0[3][3],
double &TM1, double &TM2, double &TM3, double &TM4, double &TM5,
double &d0_0, double &TM_0,
double &d0A, double &d0B, double &d0u, double &d0a, double &d0_out,
string &seqM, string &seqxA, string &seqyA, int *invmap,
double &rmsd0, int &L_ali, double &Liden,
double &TM_ali, double &rmsd_ali, int &n_ali, int &n_ali8,
const int xlen, const int ylen,
const vector<string> sequence, const double Lnorm_ass,
const double d0_scale, const int i_opt, const int a_opt,
const bool u_opt, const bool d_opt, const bool fast_opt,
const int mol_type, double *dist_list,
int **secx_bond, int **secy_bond, const int mm_opt)
{
double D0_MIN; //for d0
double Lnorm; //normalization length
double score_d8,d0,d0_search,dcu0;//for TMscore search
double t[3], u[3][3]; //Kabsch translation vector and rotation matrix
double **score; // Input score table for enhanced greedy search
double **scoret; // Transposed score table for enhanced greedy search
bool **path; // for dynamic programming
double **val; // for dynamic programming
double **xtm, **ytm; // for TMscore search engine
double **xt; //for saving the superposed version of r_1 or xtm
double **yt; //for saving the superposed version of r_2 or ytm
double **r1, **r2; // for Kabsch rotation
/***********************/
/* allocate memory */
/***********************/
int minlen = min(xlen, ylen);
int maxlen = (xlen>ylen)?xlen:ylen;
NewArray(&score, xlen+1, ylen+1);
NewArray(&scoret, ylen+1, xlen+1);
NewArray(&path, maxlen+1, maxlen+1);
NewArray(&val, maxlen+1, maxlen+1);
NewArray(&xtm, minlen, 3);
NewArray(&ytm, minlen, 3);
NewArray(&xt, xlen, 3);
NewArray(&yt, ylen, 3);
NewArray(&r1, minlen, 3);
NewArray(&r2, minlen, 3);
/***********************/
/* parameter set */
/***********************/
parameter_set4search(xlen, ylen, D0_MIN, Lnorm,
score_d8, d0, d0_search, dcu0);
int simplify_step = 40; //for simplified search engine
int score_sum_method = 8; //for scoring method, whether only sum over pairs with dis<score_d8
int i,j;
int *fwdmap0 = new int[xlen+1];
int *invmap0 = new int[ylen+1];
double TMmax=-1, TM=-1;
for(i=0; i<xlen; i++) fwdmap0[i]=-1;
for(j=0; j<ylen; j++) invmap0[j]=-1;
double local_d0_search = d0_search;
int iteration_max=(fast_opt)?2:30;
//if (mm_opt==6) iteration_max=1;
/*************************************************************/
/* initial alignment with sequence order dependent alignment */
/*************************************************************/
CPalign_main(
xa, ya, seqx, seqy, secx, secy,
t0, u0, TM1, TM2, TM3, TM4, TM5,
d0_0, TM_0, d0A, d0B, d0u, d0a, d0_out, seqM, seqxA, seqyA,
rmsd0, L_ali, Liden, TM_ali, rmsd_ali, n_ali, n_ali8,
xlen, ylen, sequence, Lnorm_ass, d0_scale,
i_opt, a_opt, u_opt, d_opt, fast_opt,
mol_type,-1);
if (mm_opt==6)
{
i=0;
j=0;
for (int r=0;r<seqxA.size();r++)
{
if (seqxA[r]=='*') // circular permutation point
{
for (int jj=0;jj<j;jj++) if (invmap0[jj]>=0)
invmap0[jj]+=xlen - i;
i=0;
continue;
}
if (seqyA[r]!='-')
{
if (seqxA[r]!='-') invmap0[j]=i;
j++;
}
if (seqxA[r]!='-') i++;
}
for (j=0;j<ylen;j++)
{
i=invmap0[j];
if (i>=0) fwdmap0[i]=j;
}
}
do_rotation(xa, xt, xlen, t0, u0);
SOI_super2score(xt, ya, xlen, ylen, score, d0, score_d8);
for (i=0;i<xlen;i++) for (j=0;j<ylen;j++) scoret[j+1][i+1]=score[i+1][j+1];
TMmax=SOI_iter(r1, r2, xtm, ytm, xt, score, path, val, xa, ya,
xlen, ylen, t0, u0, invmap0, iteration_max,
local_d0_search, Lnorm, d0, score_d8, secx_bond, secy_bond, mm_opt, true);
TM =SOI_iter(r2, r1, ytm, xtm, yt,scoret, path, val, ya, xa,
ylen, xlen, t0, u0, fwdmap0, iteration_max,
local_d0_search, Lnorm, d0, score_d8, secy_bond, secx_bond, mm_opt, true);
//cout<<"TM2="<<TM2<<"\tTM1="<<TM1<<"\tTMmax="<<TMmax<<"\tTM="<<TM<<endl;
if (TM>TMmax)
{
TMmax = TM;
for (j=0; j<ylen; j++) invmap0[j]=-1;
for (i=0; i<xlen; i++)
{
j=fwdmap0[i];
if (j>=0) invmap0[j]=i;
}
}
/***************************************************************/
/* initial alignment with sequence order independent alignment */
/***************************************************************/
if (closeK_opt>=3)
{
get_SOI_initial_assign(xk, yk, closeK_opt, score, path, val,
xlen, ylen, t, u, invmap, local_d0_search, d0, score_d8,
secx_bond, secy_bond, mm_opt);
for (i=0;i<xlen;i++) for (j=0;j<ylen;j++) scoret[j+1][i+1]=score[i+1][j+1];
SOI_assign2super(r1, r2, xtm, ytm, xt, xa, ya,
xlen, ylen, t, u, invmap, local_d0_search, Lnorm, d0, score_d8);
TM=SOI_iter(r1, r2, xtm, ytm, xt, score, path, val, xa, ya,
xlen, ylen, t, u, invmap, iteration_max,
local_d0_search, Lnorm, d0, score_d8, secx_bond, secy_bond, mm_opt);
if (TM>TMmax)
{
TMmax = TM;
for (j = 0; j<ylen; j++) invmap0[j] = invmap[j];
}
for (i=0;i<xlen;i++) fwdmap0[i]=-1;
if (mm_opt==6) NWDP_TM(scoret, path, val, ylen, xlen, -0.6, fwdmap0);
soi_egs(scoret, ylen, xlen, fwdmap0, secy_bond, secx_bond, mm_opt);
SOI_assign2super(r2, r1, ytm, xtm, yt, ya, xa,
ylen, xlen, t, u, fwdmap0, local_d0_search, Lnorm, d0, score_d8);
TM=SOI_iter(r2, r1, ytm, xtm, yt, scoret, path, val, ya, xa, ylen, xlen, t, u,
fwdmap0, iteration_max, local_d0_search, Lnorm, d0, score_d8,secy_bond, secx_bond, mm_opt);
if (TM>TMmax)
{
TMmax = TM;
for (j=0; j<ylen; j++) invmap0[j]=-1;
for (i=0; i<xlen; i++)
{
j=fwdmap0[i];
if (j>=0) invmap0[j]=i;
}
}
}
//*******************************************************************//
// The alignment will not be changed any more in the following //
//*******************************************************************//
//check if the initial alignment is generated appropriately
bool flag=false;
for (i=0; i<xlen; i++) fwdmap0[i]=-1;
for (j=0; j<ylen; j++)
{
i=invmap0[j];
invmap[j]=i;
if (i>=0)
{
fwdmap0[i]=j;
flag=true;
}
}
if(!flag)
{
cout << "There is no alignment between the two structures! "
<< "Program stop with no result!" << endl;
TM1=TM2=TM3=TM4=TM5=0;
return 1;
}
//********************************************************************//
// Detailed TMscore search engine --> prepare for final TMscore //
//********************************************************************//
//run detailed TMscore search engine for the best alignment, and
//extract the best rotation matrix (t, u) for the best alignment
simplify_step=1;
if (fast_opt) simplify_step=40;
score_sum_method=8;
TM = detailed_search_standard(r1, r2, xtm, ytm, xt, xa, ya, xlen, ylen,
invmap0, t, u, simplify_step, score_sum_method, local_d0_search,
false, Lnorm, score_d8, d0);
double rmsd;
simplify_step=1;
score_sum_method=0;
double Lnorm_0=ylen;
//select pairs with dis<d8 for final TMscore computation and output alignment
int k=0;
int *m1, *m2;
double d;
m1=new int[xlen]; //alignd index in x
m2=new int[ylen]; //alignd index in y
copy_t_u(t, u, t0, u0);
//****************************************//
// Final TMscore 1 //
//****************************************//
do_rotation(xa, xt, xlen, t, u);
k=0;
n_ali=0;
for (i=0; i<xlen; i++)
{
j=fwdmap0[i];
if(j>=0)//aligned
{
n_ali++;
d=sqrt(dist(&xt[i][0], &ya[j][0]));
if (d <= score_d8)
{
m1[k]=i;
m2[k]=j;
xtm[k][0]=xa[i][0];
xtm[k][1]=xa[i][1];
xtm[k][2]=xa[i][2];
ytm[k][0]=ya[j][0];
ytm[k][1]=ya[j][1];
ytm[k][2]=ya[j][2];
r1[k][0] = xt[i][0];
r1[k][1] = xt[i][1];
r1[k][2] = xt[i][2];
r2[k][0] = ya[j][0];
r2[k][1] = ya[j][1];
r2[k][2] = ya[j][2];
k++;
}
else fwdmap0[i]=-1;
}
}
n_ali8=k;
Kabsch(r1, r2, n_ali8, 0, &rmsd0, t, u);// rmsd0 is used for final output, only recalculate rmsd0, not t & u
rmsd0 = sqrt(rmsd0 / n_ali8);
//normalized by length of structure A
parameter_set4final(xlen+0.0, D0_MIN, Lnorm, d0, d0_search, mol_type);
d0B=d0;
local_d0_search = d0_search;
TM2 = TMscore8_search(r1, r2, xtm, ytm, xt, n_ali8, t, u, simplify_step,
score_sum_method, &rmsd, local_d0_search, Lnorm, score_d8, d0);
//****************************************//
// Final TMscore 2 //
//****************************************//
do_rotation(xa, xt, xlen, t0, u0);
k=0;
for (j=0; j<ylen; j++)
{
i=invmap0[j];
if(i>=0)//aligned
{
d=sqrt(dist(&xt[i][0], &ya[j][0]));
if (d <= score_d8)
{
m1[k]=i;
m2[k]=j;
xtm[k][0]=xa[i][0];
xtm[k][1]=xa[i][1];
xtm[k][2]=xa[i][2];
ytm[k][0]=ya[j][0];
ytm[k][1]=ya[j][1];
ytm[k][2]=ya[j][2];
r1[k][0] = xt[i][0];
r1[k][1] = xt[i][1];
r1[k][2] = xt[i][2];
r2[k][0] = ya[j][0];
r2[k][1] = ya[j][1];
r2[k][2] = ya[j][2];
k++;
}
else invmap[j]=invmap0[j]=-1;
}
}
//normalized by length of structure B
parameter_set4final(Lnorm_0, D0_MIN, Lnorm, d0, d0_search, mol_type);
d0A=d0;
d0_0=d0A;
local_d0_search = d0_search;
TM1 = TMscore8_search(r1, r2, xtm, ytm, xt, n_ali8, t0, u0, simplify_step,
score_sum_method, &rmsd, local_d0_search, Lnorm, score_d8, d0);
TM_0 = TM1;
if (a_opt>0)
{
//normalized by average length of structures A, B
Lnorm_0=(xlen+ylen)*0.5;
parameter_set4final(Lnorm_0, D0_MIN, Lnorm, d0, d0_search, mol_type);
d0a=d0;
d0_0=d0a;
local_d0_search = d0_search;
TM3 = TMscore8_search(r1, r2, xtm, ytm, xt, n_ali8, t0, u0,
simplify_step, score_sum_method, &rmsd, local_d0_search, Lnorm,
score_d8, d0);
TM_0=TM3;
}
if (u_opt)
{
//normalized by user assigned length
parameter_set4final(Lnorm_ass, D0_MIN, Lnorm,
d0, d0_search, mol_type);
d0u=d0;
d0_0=d0u;
Lnorm_0=Lnorm_ass;
local_d0_search = d0_search;
TM4 = TMscore8_search(r1, r2, xtm, ytm, xt, n_ali8, t0, u0,
simplify_step, score_sum_method, &rmsd, local_d0_search, Lnorm,
score_d8, d0);
TM_0=TM4;
}
if (d_opt)
{
//scaled by user assigned d0
parameter_set4scale(ylen, d0_scale, Lnorm, d0, d0_search);
d0_out=d0_scale;
d0_0=d0_scale;
//Lnorm_0=ylen;
local_d0_search = d0_search;
TM5 = TMscore8_search(r1, r2, xtm, ytm, xt, n_ali8, t0, u0,
simplify_step, score_sum_method, &rmsd, local_d0_search, Lnorm,
score_d8, d0);
TM_0=TM5;
}
/* derive alignment from superposition */
int ali_len=xlen+ylen;
for (j=0;j<ylen;j++) ali_len-=(invmap0[j]>=0);
seqxA.assign(ali_len,'-');
seqM.assign( ali_len,' ');
seqyA.assign(ali_len,'-');
//do_rotation(xa, xt, xlen, t, u);
do_rotation(xa, xt, xlen, t0, u0);
Liden=0;
//double SO=0;
for (j=0;j<ylen;j++)
{
seqyA[j]=seqy[j];
i=invmap0[j];
dist_list[j]=-1;
if (i<0) continue;
d=sqrt(dist(xt[i], ya[j]));
if (d<d0_out) seqM[j]=':';
else seqM[j]='.';
dist_list[j]=d;
//SO+=(d<3.5);
seqxA[j]=seqx[i];
Liden+=(seqx[i]==seqy[j]);
}
//SO/=getmin(xlen,ylen);
k=0;
for (i=0;i<xlen;i++)
{
j=fwdmap0[i];
if (j>=0) continue;
seqxA[ylen+k]=seqx[i];
k++;
}
//cout<<n_ali8<<'\t'
//<<rmsd0<<'\t'
//<<100.*SO<<endl;
/* clean up */
DeleteArray(&score, xlen+1);
DeleteArray(&scoret,ylen+1);
DeleteArray(&path,maxlen+1);
DeleteArray(&val, maxlen+1);
DeleteArray(&xtm, minlen);
DeleteArray(&ytm, minlen);
DeleteArray(&xt,xlen);
DeleteArray(&yt,ylen);
DeleteArray(&r1, minlen);
DeleteArray(&r2, minlen);
delete[]invmap0;
delete[]fwdmap0;
delete[]m1;
delete[]m2;
return 0;
}
#endif