printf("-s <value> \t steps (default %d)\n",STEPS);
printf("-d <value> \t refresh display (default %d)\n",REFRESH);
printf("-r <value> \t amorphous influence range (default %d)\n",RANGE);
- printf("-f <value> \t pressure = <value> * 1/distance^2 (default %f)\n",A_AP);
- printf("-p <value> \t pressure offset (default %f)\n",B_AP);
- printf("-F <value> \t proportionality constant between c conc and ability to get amorphous (default %f)\n",A_CP);
+ printf("-f <value> \t stress induced amorphization influence (default %f)\n",S_D);
+ printf("-p <value> \t ballistic amorphization influence (default %f)\n",B_D);
+ printf("-F <value> \t carbon induced amorphization influence (default %f)\n",C_D);
printf("-D <value> \t diffusion rate from cryst to amorph cells (default %f)\n",DR_AC);
printf("-c <value> \t diffusion rate in cryst cells (default %f)\n",DR_CC);
printf("-e <value> \t do diffusion every <value> steps (default %d)\n",DIFF_RATE);
if(*(d3_l->status+offset)&AMORPH) count+=1;
}
}
+#ifndef MAC
if(ac_distr==4) dprintf(fd,"%d %d\n",z*CELL_LENGTH,count);
else dprintf(fd,"%d %f\n",z*CELL_LENGTH,100.0*count/si_count);
+#endif
}
close(fd);
int convert_file(char *cf,d3_lattice *d3_l)
{
+#ifndef MAC
int x,y,z;
int c_fd;
}
}
close(c_fd);
+#endif
return 1;
}
resave=RESAVE;
my_info.z_diff=0;
my_info.c_diff=1;
- my_info.s=A_AP;
- my_info.b=B_AP;
- my_info.c=A_CP;
+ my_info.s=S_D;
+ my_info.b=B_D;
+ my_info.c=C_D;
my_info.cc=CC;
my_info.dr_ac=DR_AC;
my_info.dr_cc=DR_CC;
ne_max=0;
ip_max=0;
+#ifdef MORE_PRINTF
+ printf("reading argv ...");
+#endif
+
for(i=1;i<argc;i++)
{
if(argv[i][0]=='-')
} else usage();
}
+#ifdef MORE_PRINTF
+ printf(" done\n");
+#endif
+
x=d3_l.max_x/2-1;
y=d3_l.max_y/2-1;
z=d3_l.max_z/2-1;
}
#endif
+#ifdef MORE_PRINTF
+ printf("rand init ...");
+#endif
+
if(!strcmp(r_file,"")) rand_init(NULL);
else rand_init(r_file);
+#ifdef MORE_PRINTF
+ printf(" done\n");
+ printf("allocating data ...");
+#endif
+
if(!strcmp(l_file,""))
{
i=d3_l.max_x*d3_l.max_y*d3_l.max_z;
convert_file(c_file,&d3_l);
puts("done");
return 1;
- }
+ }
#ifdef USE_DFB_API
else d3_lattice_init(&argc,argv,&d3_l);
#endif
}
+#ifdef MORE_PRINTF
+ printf(" done\n");
+#endif
+
#ifdef USE_DFB_API
d3_event_init(&d3_l);
#endif
arg_v[25]=NULL;
#endif
+#ifdef MORE_PRINTF
+ printf("random rejection graphs ...");
+#endif
+
/* compute graphs for random number rejection method */
if((c_profile=(u32 *)malloc(d3_l.max_z*sizeof(unsigned int)))==NULL)
{
return -1;
}
+#ifdef MORE_PRINTF
+ printf(" done\n");
+#endif
+
#ifdef DEBUG_RAND
i=0;
while(1)
}
#endif
+#ifdef MORE_PRINTF
+ printf("starting simulation ... now! :)\n");
+#endif
+
i=(c_step?c_step:0);
while((i<my_info.steps) && (quit==0) && (escape==0))
{
+#ifdef MORE_PRINTF
+ if(i%refresh==0) printf("step: %d\n",i);
+#endif
for(j=0;j<my_info.cpi;j++)
{
x_c=get_rand(d3_l.max_x);