* selforganizing lamella structure in the observed behaviour.
*
* refs:
- * - J. K. N. Lindner. Habilationsschrift, Universitaet Augsburg.
+ * - J. K. N. Lindner. Habil.Schrift, Universitaet Augsburg.
* - Maik Haeberlen. Diplomarbeit, Universitaet Augsburg.
*
* Copyright (C) 2004 Frank Zirkelbach
j+=(*(d3_l->status+x+((y-1+d3_l->max_y)%d3_l->max_y)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&AMORPH)?1:0;
j+=(*(d3_l->status+x+y*d3_l->max_x+((z+1+d3_l->max_z)%d3_l->max_z)*d3_l->max_x*d3_l->max_y)&AMORPH)?1:0;
j+=(*(d3_l->status+x+y*d3_l->max_x+((z-1+d3_l->max_z)%d3_l->max_z)*d3_l->max_x*d3_l->max_y)&AMORPH)?1:0;
+
p+=((q/6)*j);
if(get_rand(URAND_MAX)>p) MAKE_CRYST(thiz);
}
int load_from_file(char *lf,d3_lattice *d3_l,info *my_inf)
{
- int lf_fd,c;
+
+ int lf_fd,c,pos,end,data,data_len,strip;
if((lf_fd=open(lf,O_RDONLY))<0)
{
puts("failed reading d3 lattice struct");
return -1;
}
- if(read(lf_fd,my_inf,sizeof(info))<sizeof(info))
+ pos=lseek(lf_fd,0,SEEK_CUR);
+ printf("psition: %d (%d)\n",pos,sizeof(d3_lattice));
+ data=d3_l->max_x*d3_l->max_y*d3_l->max_z;
+ data_len=data*(sizeof(int)+sizeof(unsigned char));
+ printf("there are %d volumes so we need %d of bytes\n",data,data_len);
+ end=lseek(lf_fd,0,SEEK_END);
+ c=end-pos-data_len;
+ printf("end: %d => length: %d => guessed info size: %d bytes\n",end,end-pos,c);
+ strip=sizeof(info)-c;
+ printf("as real programs info size is %d, we strip %d bytes\n",sizeof(info),strip);
+ lseek(lf_fd,pos,SEEK_SET);
+ c=sizeof(info);
+ if(strip>0) c-=strip;
+ if(c<0)
+ {
+ puts("info smaller then strip size");
+ return -1;
+ }
+ if(read(lf_fd,my_inf,c)<c)
{
puts("failed reading info struct");
return-1;
}
+ if(strip>0) memset(my_inf+c,0,strip);
+ if(strip<0) lseek(lf_fd,(-1*strip),SEEK_CUR);
c=d3_l->max_x*d3_l->max_y*d3_l->max_z;
if((d3_l->status=(unsigned char*)malloc(c*sizeof(unsigned char)))==NULL)
{
char cc_txt[MAX_TXT];
char a_txt[MAX_TXT];
char s_txt[MAX_TXT];
- char ap_txt[MAX_TXT];
+ char ballistic_txt[MAX_TXT];
+ char carbon_txt[MAX_TXT];
+ char stress_txt[MAX_TXT];
char r_txt[MAX_TXT];
- char cp_txt[MAX_TXT];
char zdiff_txt[MAX_TXT];
char diff_txt[MAX_TXT];
char dr_ac_txt[MAX_TXT];
sprintf(s_txt,"steps: %d",my_info.steps);
sprintf(dose_txt,"dose: %.2fe+17 C/cm²",my_info.steps*1.0/(d3_l.max_x*d3_l.max_y*CELL_LENGTH*CELL_LENGTH*1000));
sprintf(r_txt,"pressure range: %d",my_info.range);
- sprintf(ap_txt,"a_ap: %f b_ap: %f",my_info.a_ap,my_info.b_ap);
- sprintf(cp_txt,"a_cp: %f",my_info.a_cp);
+ sprintf(stress_txt,"stress term: %f",my_info.a_ap);
+ sprintf(ballistic_txt,"ballistic term: %f",my_info.b_ap);
+ sprintf(carbon_txt,"carbon term: %f",my_info.a_cp);
sprintf(dr_ac_txt,"a/c diffusion rate: %f",my_info.dr_ac);
if(my_info.c_diff!=0) sprintf(dr_cc_txt,"c/c diffusion rate: %f",my_info.dr_cc);
else sprintf(dr_cc_txt,"c/c diffusion rate: none");
arg_v[12]=diff_txt;
arg_v[13]=zdiff_txt;
arg_v[14]=r_txt;
- arg_v[15]=ap_txt;
- arg_v[16]=cp_txt;
- arg_v[17]=dr_ac_txt;
- arg_v[18]=dr_cc_txt;
- arg_v[19]=hpi_txt;
- arg_v[20]=csat_txt;
- arg_v[21]=NULL;
+ arg_v[15]=ballistic_txt;
+ arg_v[16]=carbon_txt;
+ arg_v[17]=stress_txt;
+ arg_v[18]=dr_ac_txt;
+ arg_v[19]=dr_cc_txt;
+ arg_v[20]=hpi_txt;
+ arg_v[21]=csat_txt;
arg_v[22]=NULL;
arg_v[23]=NULL;
arg_v[24]=NULL;
y_c=get_rand(d3_l.max_y);
// z_c=get_rand_reject(d3_l.max_z,ne_max,n_e_loss);
z_c=get_rand(d3_l.max_z);
- nel_z=(URAND_MAX*n_e_loss[z_c])/ne_max;
+ nel_z=URAND_MAX*(1.0*n_e_loss[z_c]/ne_max);
process_cell(&d3_l,x_c,y_c,z_c,&my_info,nel_z);
}
distrib_c(&d3_l,&my_info,i,c_ratio,ip_max,c_profile);
projects / physik / nlsop.git / blobdiff