X-Git-Url: https://hackdaworld.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=moldyn.c;h=9f8821164dd9ae3b0eb406ec21d8c3b5cbb12709;hb=020789bbba5881e2abf58c362d0ce733696de3b3;hp=f92ce557cecfaa398ff31ace4ef77513d1cf719e;hpb=0d71b08d4382b23b8217342caf138cfce36226cc;p=physik%2Fposic.git diff --git a/moldyn.c b/moldyn.c index f92ce55..9f88211 100644 --- a/moldyn.c +++ b/moldyn.c @@ -58,6 +58,7 @@ int moldyn_parse_argv(t_moldyn *moldyn,int argc,char **argv) { int i; t_ho_params hop; t_lj_params ljp; + t_tersoff_params tp; double s,e; memset(moldyn,0,sizeof(t_moldyn)); @@ -81,10 +82,6 @@ int moldyn_parse_argv(t_moldyn *moldyn,int argc,char **argv) { moldyn->mwrite=atoi(argv[++i]); strncpy(moldyn->mfb,argv[++i],64); break; - case 'D': - moldyn->dwrite=atoi(argv[++i]); - strncpy(moldyn->dfb,argv[++i],64); - break; case 'S': moldyn->swrite=atoi(argv[++i]); strncpy(moldyn->sfb,argv[++i],64); @@ -187,16 +184,6 @@ int moldyn_log_init(t_moldyn *moldyn) { if(moldyn->swrite) moldyn->lvstat|=MOLDYN_LVSTAT_SAVE; - if(moldyn->dwrite) { - moldyn->dfd=open(moldyn->dfb,O_WRONLY|O_CREAT|O_TRUNC); - if(moldyn->dfd<0) { - perror("[moldyn] dfd open"); - return moldyn->dfd; - } - write(moldyn->dfd,moldyn,sizeof(t_moldyn)); - moldyn->lvstat|=MOLDYN_LVSTAT_DUMP; - } - if((moldyn->vwrite)&&(vis)) { moldyn->visual=vis; visual_init(vis,moldyn->vfb); @@ -245,7 +232,7 @@ int moldyn_shutdown(t_moldyn *moldyn) { return 0; } -int create_lattice(unsigned char type,int element,double mass,double lc, +int create_lattice(u8 type,int element,double mass,double lc, int a,int b,int c,t_atom **atom) { int count; @@ -500,7 +487,7 @@ int link_cell_neighbour_index(t_moldyn *moldyn,int i,int j,int k,t_list *cell) { int ci,cj,ck; int nx,ny,nz; int x,y,z; - unsigned char bx,by,bz; + u8 bx,by,bz; lc=&(moldyn->lc); nx=lc->nx; @@ -544,6 +531,9 @@ int link_cell_neighbour_index(t_moldyn *moldyn,int i,int j,int k,t_list *cell) { } } + lc->dnlc=count2; + lc->countn=27; + return count2; } @@ -632,14 +622,9 @@ int moldyn_integrate(t_moldyn *moldyn) { write(fd,moldyn->atom, moldyn->count*sizeof(t_atom)); } + close(fd); } } - if(d) { - if(!(i%d)) - write(moldyn->dfd,moldyn->atom, - moldyn->count*sizeof(t_atom)); - - } if(v) { if(!(i%v)) { visual_atoms(moldyn->visual,i*moldyn->tau, @@ -687,7 +672,8 @@ printf("done\n"); /* forces depending on chosen potential */ printf("calc potential/force ...\n"); - moldyn->potential_force_function(moldyn); + potential_force_calc(moldyn); + //moldyn->potential_force_function(moldyn); printf("done\n"); for(i=0;ipot_params; + count=moldyn->count; atom=moldyn->atom; lc=&(moldyn->lc); - sc=params->spring_constant; - equi_dist=params->equilibrium_distance; - count=moldyn->count; - /* reset energy counter */ - u=0.0; + /* reset energy */ + moldyn->energy=0.0; for(i=0;idim.x/2))/lc->x; - nj=(atom[i].r.y+(moldyn->dim.y/2))/lc->y; - nk=(atom[i].r.z+(moldyn->dim.z/2))/lc->z; - c=link_cell_neighbour_index(moldyn,ni,nj,nk,neighbour); + /* single particle potential/force */ + if(atom[i].attr&ATOM_ATTR_1BP) + moldyn->pf_func1b(moldyn,&(atom[i])); - /* - * processing cell of atom i - * => no need to check for empty list (1 element at minimum) - */ - this=&(neighbour[0]); - list_reset(this); - do { - btom=this->current->data; - if(btom==&(atom[i])) - continue; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - d=v3_norm(&distance); - if(d<=moldyn->cutoff) { - u+=(0.5*sc*(d-equi_dist)*(d-equi_dist)); - v3_scale(&force,&distance, - -sc*(1.0-(equi_dist/d))); - v3_add(&(atom[i].f),&(atom[i].f),&force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); + /* 2 body pair potential/force */ + if(atom[i].attr&(ATOM_ATTR_2BP|ATOM_ATTR_3BP)) { + + link_cell_neighbour_index(moldyn, + (atom[i].r.x+moldyn->dim.x/2)/lc->x, + (atom[i].r.y+moldyn->dim.y/2)/lc->y, + (atom[i].r.z+moldyn->dim.z/2)/lc->z, + neighbour); - /* - * direct neighbour cells - * => no boundary condition check necessary - */ - for(j=1;jstart!=NULL) { + countn=lc->countn; + dnlc=lc->dnlc; - do { - btom=this->current->data; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - d=v3_norm(&distance); - if(d<=moldyn->cutoff) { - u+=(0.5*sc*(d-equi_dist)*(d-equi_dist)); - v3_scale(&force,&distance, - -sc*(1.0-(equi_dist/d))); - v3_add(&(atom[i].f),&(atom[i].f), - &force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); + for(j=0;j check boundary conditions - */ - for(j=c;j<27;j++) { - this=&(neighbour[j]); - list_reset(this); /* check boundary conditions */ - if(this->start!=NULL) { + if(this->start==NULL) + continue; - do { - btom=this->current->data; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - v3_per_bound(&distance,&(moldyn->dim)); - d=v3_norm(&distance); - if(d<=moldyn->cutoff) { - u+=(0.5*sc*(d-equi_dist)*(d-equi_dist)); - v3_scale(&force,&distance, - -sc*(1.0-(equi_dist/d))); - v3_add(&(atom[i].f),&(atom[i].f), - &force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); + bc=(jcurrent->data; + + if(btom==&(atom[i])) + continue; + + if((btom->attr&ATOM_ATTR_2BP)& + (atom[i].attr&ATOM_ATTR_2BP)) + moldyn->pf_func2b(moldyn, + &(atom[i]), + btom, + bc); + + /* 3 body potential/force */ + + if(!(atom[i].attr&ATOM_ATTR_3BP)|| + !(btom->attr&ATOM_ATTR_3BP)) + continue; + + link_cell_neighbour_index(moldyn, + (btom->r.x+moldyn->dim.x/2)/lc->x, + (btom->r.y+moldyn->dim.y/2)/lc->y, + (btom->r.z+moldyn->dim.z/2)/lc->z, + neighbourk); + + for(k=0;kcountn;k++) { + + thisk=&(neighbourk[k]); + list_reset(thisk); + + if(thisk->start==NULL) + continue; + + bck=(kdnlc)?0:1; + do { + + ktom=thisk->current->data; + + if(!(ktom->attr&ATOM_ATTR_3BP)) + continue; + + if(ktom==btom) + continue; + + if(ktom==&(atom[i])) + continue; + + moldyn->pf_func3b(moldyn,&(atom[i]),btom,ktom,bck); + + } while(list_next(thisk)!=\ + L_NO_NEXT_ELEMENT); + + } while(list_next(this)!=L_NO_NEXT_ELEMENT); } } } - moldyn->energy=0.5*u; + return 0; +} + +/* + * periodic boundayr checking + */ + +int check_per_bound(t_moldyn *moldyn,t_3dvec *a) { + + double x,y,z; + + x=0.5*dim->x; + y=0.5*dim->y; + z=0.5*dim->z; + + if(moldyn->MOLDYN_ATTR_PBX) + if(a->x>=x) a->x-=dim->x; + else if(-a->x>x) a->x+=dim->x; + if(moldyn->MOLDYN_ATTR_PBY) + if(a->y>=y) a->y-=dim->y; + else if(-a->y>y) a->y+=dim->y; + if(moldyn->MOLDYN_ATTR_PBZ) + if(a->z>=z) a->z-=dim->z; + else if(-a->z>z) a->z+=dim->z; + + return 0; +} + + +/* + * example potentials + */ + +/* harmonic oscillator potential and force */ + +int harmonic_oscillator(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc)) { + + t_ho_params *params; + t_3dvec force,distance; + double d; + double sc,equi_dist; + + params=moldyn->pot2b_params; + sc=params->spring_constant; + equi_dist=params->equilibrium_distance; + + v3_sub(&distance,&(ai->r),&(aj->r); + + v3_per_bound(&distance,&(moldyn->dim)); + if(bc) check_per_bound(moldyn,&distance); + d=v3_norm(&distance); + if(d<=moldyn->cutoff) { + /* energy is 1/2 (d-d0)^2, but we will add this twice ... */ + moldyn->energy+=(0.25*sc*(d-equi_dist)*(d-equi_dist)); + v3_scale(&force,&distance,-sc*(1.0-(equi_dist/d))); + v3_add(&(ai->f),&(ai->f),&force); + } return 0; } /* lennard jones potential & force for one sort of atoms */ -int lennard_jones(t_moldyn *moldyn) { +int lennard_jones(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc) { t_lj_params *params; - t_atom *atom,*btom; - t_linkcell *lc; - t_list *this,neighbour[27]; - int i,j,c; - int count; t_3dvec force,distance; double d,h1,h2,u; double eps,sig6,sig12; - int ni,nj,nk; params=moldyn->pot_params; - atom=moldyn->atom; - lc=&(moldyn->lc); - count=moldyn->count; eps=params->epsilon4; sig6=params->sigma6; sig12=params->sigma12; - /* reset energy counter */ - u=0.0; + v3_sub(&distance,&(ai->r),&(aj->r)); + if(bc) check_per_bound(moldyn,&distance); + d=v3_absolute_square(&distance); /* 1/r^2 */ + if(d<=moldyn->cutoff_square) { + d=1.0/d; /* 1/r^2 */ + h2=d*d; /* 1/r^4 */ + h2*=d; /* 1/r^6 */ + h1=h2*h2; /* 1/r^12 */ + /* energy is eps*..., but we will add this twice ... */ + moldyn->energy+=0.5*eps*(sig12*h1-sig6*h2); + h2*=d; /* 1/r^8 */ + h1*=d; /* 1/r^14 */ + h2*=6*sig6; + h1*=12*sig12; + d=+h1-h2; + d*=eps; + v3_scale(&force,&distance,d); + v3_add(&(ai->f),&(aj->f),&force); + } - for(i=0;idim.x/2))/lc->x; - nj=(atom[i].r.y+(moldyn->dim.y/2))/lc->y; - nk=(atom[i].r.z+(moldyn->dim.z/2))/lc->z; - c=link_cell_neighbour_index(moldyn,ni,nj,nk,neighbour); - - /* processing cell of atom i */ - this=&(neighbour[0]); - list_reset(this); /* list has 1 element at minimum */ - do { - btom=this->current->data; - if(btom==&(atom[i])) - continue; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - d=v3_absolute_square(&distance); /* 1/r^2 */ - if(d<=moldyn->cutoff_square) { - d=1.0/d; /* 1/r^2 */ - h2=d*d; /* 1/r^4 */ - h2*=d; /* 1/r^6 */ - h1=h2*h2; /* 1/r^12 */ - u+=eps*(sig12*h1-sig6*h2); - h2*=d; /* 1/r^8 */ - h1*=d; /* 1/r^14 */ - h2*=6*sig6; - h1*=12*sig12; - d=+h1-h2; - d*=eps; - v3_scale(&force,&distance,d); - v3_add(&(atom[i].f),&(atom[i].f),&force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); +/* + * tersoff potential & force for 2 sorts of atoms + */ - /* neighbours not doing boundary condition overflow */ - for(j=1;jstart!=NULL) { +/* tersoff 2 body part */ - do { - btom=this->current->data; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - d=v3_absolute_square(&distance); /* r^2 */ - if(d<=moldyn->cutoff_square) { - d=1.0/d; /* 1/r^2 */ - h2=d*d; /* 1/r^4 */ - h2*=d; /* 1/r^6 */ - h1=h2*h2; /* 1/r^12 */ - u+=eps*(sig12*h1-sig6*h2); - h2*=d; /* 1/r^8 */ - h1*=d; /* 1/r^14 */ - h2*=6*sig6; - h1*=12*sig12; - d=+h1-h2; - d*=eps; - v3_scale(&force,&distance,d); - v3_add(&(atom[i].f),&(atom[i].f), - &force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); - - } - } +int tersoff_2bp(t_moldyn *moldyn,t_atom *ai,t_atom *aj,u8 bc) { - /* neighbours due to boundary conditions */ - for(j=c;j<27;j++) { - this=&(neighbour[j]); - list_reset(this); /* check boundary conditions */ - if(this->start!=NULL) { + t_tersoff_params *params; + t_3dvec dist_ij; + double d_ij; - do { - btom=this->current->data; - v3_sub(&distance,&(atom[i].r),&(btom->r)); - v3_per_bound(&distance,&(moldyn->dim)); - d=v3_absolute_square(&distance); /* r^2 */ - if(d<=moldyn->cutoff_square) { - d=1.0/d; /* 1/r^2 */ - h2=d*d; /* 1/r^4 */ - h2*=d; /* 1/r^6 */ - h1=h2*h2; /* 1/r^12 */ - u+=eps*(sig12*h1-sig6*h2); - h2*=d; /* 1/r^8 */ - h1*=d; /* 1/r^14 */ - h2*=6*sig6; - h1*=12*sig12; - d=+h1-h2; - d*=eps; - v3_scale(&force,&distance,d); - v3_add(&(atom[i].f),&(atom[i].f), - &force); - } - } while(list_next(this)!=L_NO_NEXT_ELEMENT); + params=moldyn->pot_params; + + /* + * we need: f_c, df_c, f_r, df_r + * + * therefore we need: R, S + */ - } + v3_sub(&dist_ij,&(ai->r),&(aj->r)); + + if(bc) check_per_bound(moldyn,&dist_ij); + + if(ai->bnum==aj->bnum) { + S=params->S[ai->bnum]; + R=params->R[ai->bnum]; + } + else { + S=params->Smixed; + R=params->Rmixed; + } + + d_ij=v3_norm(&dist_ij); + + if(d_ij<=S) { + f_r=A*exp(-lamda*d_ij); + df_r=-lambda*f_r/d_ij; + if(d_ijf),&(ai->f),&force); + } + moldyn->energy+=(f_r*f_c); } - moldyn->energy=0.5*u; - return 0; } -/* tersoff potential & force for 2 sorts of atoms */ +/* tersoff 3 body part */ -int tersoff(t_moldyn *moldyn) { +int tersoff(t_moldyn *moldyn,t_atom *ai,t_atom *aj,t_atom *ak,u8 bc,u8 bck) { t_tersoff_params *params; - t_atom *atom,*btom,*ktom; - t_linkcell *lc; - t_list *this,*thisk,neighbour[27],neighbourk[27]; - int i,j,k,c,ck; - int count; - double u; - int ni,nj,nk; - int ki,kj,kk; - + t_3dvec dist_ij; + double d_ij; params=moldyn->pot_params; - atom=moldyn->atom; - lc=&(moldyn->lc); - count=moldyn->count; - /* reset energy counter */ - u=0.0; - - for(i=0;idim.x/2))/lc->x; - nj=(atom[i].r.y+(moldyn->dim.y/2))/lc->y; - nk=(atom[i].r.z+(moldyn->dim.z/2))/lc->z; - c=link_cell_neighbour_index(moldyn,ni,nj,nk,neighbour); - - /* - * processing cell of atom i - * => no need to check for empty list (1 element at minimum) - */ - this=&(neighbour[0]); - list_reset(this); - do { - btom=this->current->data; - if(btom==&(atom[i])) - continue; - - /* 2 body stuff */ - - /* we need: f_c, df_c, f_r, df_r */ + /* 2 body part of the tersoff potential */ - v3_sub(&dist_ij,btom,&(atom[i])); - d_ij=v3_norm(&dist_ij); - if(d_ij<=S) { + v3_sub(&dist_ij,&(ai->r),&(aj->r)); + if(bc) check_per_bound(moldyn,&dist_ij); + d_ij=v3_norm(&dist_ij); + if(d_ij<=S) { /* determine the tersoff parameters */ if(atom[i].element!=btom->element) {