X-Git-Url: https://hackdaworld.org/gitweb/?p=physik%2Fnlsop.git;a=blobdiff_plain;f=nlsop.c;h=fc34c8ad36801e84f69f681d904fae9bad24d29f;hp=69e8bcb404d2a551e4da697a1c27fcb9595285a9;hb=c5b9953db14e79a0c8457b2f7ca7bbc54e35d619;hpb=a83a3e72a506dfe1835cfbe3081bec08eb6cf1bd

diff --git a/nlsop.c b/nlsop.c
index 69e8bcb..fc34c8a 100644
--- a/nlsop.c
+++ b/nlsop.c
@@ -1,6 +1,8 @@
 /*
  * nlsop.c 
  *
+ * author: frank zirkelbach (frank.zirkelbach@physik.uni-augsburg.de)
+ *
  * this program tries helping to understand the amorphous depuration
  * and recrystallization of SiCx while ion implantation at temperatures
  * below 400 degree celsius.
@@ -8,8 +10,25 @@
  * 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
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
+ *
  */
 
 #define _GNU_SOURCE
@@ -35,74 +54,102 @@ int usage(void)
  puts("-h \t\t help");
  puts("-n \t\t no user interaction");
  puts("-Z \t\t cryst -> amorph c diffusion in z direction");
- printf("-a <value> \t slope of nuclear energy loss (default %f)\n",A_EL);
- printf("-b <value> \t nuclear energy loss offset (default %f)\n",B_EL);
+ puts("-i \t\t no cryst to cryst diffusion");
  printf("-x <value> \t # x cells (default %d)\n",X);
  printf("-y <value> \t # y cells (default %d)\n",Y);
  printf("-z <value> \t # z cells (default %d)\n",Z);
- /*
- printf("-X <value> \t display x (default %d)\n",X/2-1);
- printf("-Y <value> \t display y (default %d)\n",Y/2-1);
- printf("-Z <value> \t display z (default %d)\n",Z/2-1);
- */
  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("-A <value> \t slope of linear c distribution (default %f)\n",A_CD);
- printf("-B <value> \t linear c distribution offset (default %f)\n",B_CD);
- /*
- printf("-C <value> \t initial c concentration (default %d)\n",CC);
- */
- printf("-D <value> \t diffusion rate from cryst to amorph cells (default %f)\n",D_R);
+ 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);
+ puts("-g <file> <step> continue simulation from file and step (step > 0)!");
  printf("-W <value> \t write every <value> steps to save file (default %d)\n",RESAVE);
  puts("-C <file> \t convert file to gnuplot format");
  puts("-L <file> \t load from file");
  puts("-S <file> \t save to file");
  puts("-R <file> \t read from random file");
+ puts("-P <file> \t specify implantation profile file");
+ puts("-N <file> \t specify nuclear energy loss profile file");
+ printf("-H <value> \t collisions per ion in simulation window (default %d)\n",CPI);
+ printf("-m <value> \t number of ion hits sputtering 3nm (default %d)\n",S_RATE);
  
  return 1;
 }
 
-int process_cell(d3_lattice *d3_l,u32 x,u32 y,u32 z,int r,double a,double b,int *t_c)
+int sputter(d3_lattice *d3_l)
+{
+ int i,size;
+ int offh,offl;
+
+ size=d3_l->max_x*d3_l->max_y;
+ offl=0;
+ offh=size;
+
+ for(i=0;i<d3_l->max_z-1;i++)
+ {
+  memcpy(d3_l->status+offl,d3_l->status+offh,size);
+  memcpy(d3_l->extra+offl,d3_l->extra+offh,size*sizeof(int));
+  offl=offh;
+  offh+=size;
+ }
+ memset(d3_l->status+offl,0,size);
+ memset(d3_l->extra+offl,0,size);
+
+ return 1;
+}
+
+int process_cell(d3_lattice *d3_l,u32 x,u32 y,u32 z,info *my_info,u32 nel_z)
 {
  unsigned char *thiz;
  int *conc;
  int i,j;
  int off;
- double p;
+ double p,q;
 
  thiz=d3_l->status+x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
  conc=d3_l->extra+x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
- p=b*URAND_MAX;
- for(i=-r;i<=r;i++)
+ p=my_info->b*nel_z;
+ for(i=-(my_info->range);i<=my_info->range;i++)
  {
-  for(j=-r;j<=r;j++)
+  for(j=-(my_info->range);j<=my_info->range;j++)
   {
    if(!(i==0 && j==0))
    {
     off=((x+d3_l->max_x+i)%d3_l->max_x)+((y+d3_l->max_y+j)%d3_l->max_x)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
-    if(*(d3_l->status+off)&AMORPH) p+=a*(*(d3_l->extra+off))*URAND_MAX/(i*i+j*j);
+    if(*(d3_l->status+off)&AMORPH) p+=my_info->s*(*(d3_l->extra+off))*URAND_MAX/(i*i+j*j);
    } 
   }
  }
- // printf("debug: p = %f\n",p);
+ p+=*conc*my_info->c*URAND_MAX;
  if(!(*thiz&AMORPH))
  {
   if(get_rand(URAND_MAX)<=p) MAKE_AMORPH(thiz);
  } else
  {
   /* assume 1-p probability */
+  /* also look for neighbours ! */
+  q=(URAND_MAX-p)>0?URAND_MAX-p:0;
+  j=0;
+  j+=(*(d3_l->status+((x+d3_l->max_x+1)%d3_l->max_x)+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&AMORPH)?1:0;
+  j+=(*(d3_l->status+((x+d3_l->max_x-1)%d3_l->max_x)+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&AMORPH)?1:0;
+  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-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);
  }
  
- *t_c+=1;
-
  return 1;
 }
 
-int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
+int distrib_c(d3_lattice *d3_l,info *my_info,int step,u32 rj_m,u32 *rj_g)
 {
  u32 x,y,z;
  int i,j,k,c;
@@ -112,10 +159,13 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
  /* put one c ion somewhere in the lattice */
  x=get_rand(d3_l->max_x);
  y=get_rand(d3_l->max_y);
- z=get_rand_lgp(d3_l->max_z,a,b);
+ z=get_rand_reject(d3_l->max_z,rj_m,rj_g);
  *(d3_l->extra+x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)+=1;
+ (my_info->cc)++;
+
+ if(step%my_info->diff_rate==0)
+ {
 
- /* diffusion in layer */
  for(i=0;i<d3_l->max_x;i++)
  {
   for(j=0;j<d3_l->max_y;j++)
@@ -123,24 +173,16 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
    for(k=0;k<d3_l->max_z;k++)
    {
     offset=i+j*d3_l->max_x+k*d3_l->max_x*d3_l->max_y;
-    /* case amorph */
+    /* case amorph: amorph <- cryst diffusion */
     if(*(d3_l->status+offset)&AMORPH)
     {
-     /* look at neighbours and move c ions */
      for(c=-1;c<=1;c++)
      {
       if(c!=0)
       {
        off=((i+d3_l->max_x+c)%d3_l->max_x)+j*d3_l->max_x+k*d3_l->max_x*d3_l->max_y;
        carry=0;
-       /* case neighbour not amorph */
-       if(!(*(d3_l->status+off)&AMORPH)) carry=(int)(d_r*(*(d3_l->extra+off)));
-       /* case neighbour amorph */
-       /*
-        * no diffusion between amorphous cells
-        *
-       else carry=(*(d3_l->extra+off)-*(d3_l->extra+offset))/2;
-        */
+       if(!(*(d3_l->status+off)&AMORPH)) carry=(int)(my_info->dr_ac*(*(d3_l->extra+off)));
        if(carry!=0)
        {
         *(d3_l->extra+offset)+=carry;
@@ -154,15 +196,7 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
       {
        off=i+((j+c+d3_l->max_y)%d3_l->max_y)*d3_l->max_x+k*d3_l->max_x*d3_l->max_y;
        carry=0;
-       /* case neighbour not amorph */  
-       if(!(*(d3_l->status+off)&AMORPH)) carry=(int)(d_r*(*(d3_l->extra+off)));                             
-       /* case neighbour amorph */
-       /*
-        *
-        * no diffusion between amorphous cells
-        *
-       else carry=(*(d3_l->extra+off)-*(d3_l->extra+offset))/2;
-        */
+       if(!(*(d3_l->status+off)&AMORPH)) carry=(int)(my_info->dr_ac*(*(d3_l->extra+off)));
        if(carry!=0)
        {
         *(d3_l->extra+offset)+=carry; 
@@ -170,20 +204,45 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
        }
       }
      }
+     if(my_info->z_diff)
+     {
+      if(k!=0)
+      {
+       off=i+j*d3_l->max_x+(k-1)*d3_l->max_x*d3_l->max_y;
+       carry=0;
+       if(!*(d3_l->status+off)&AMORPH) carry=(int)(my_info->dr_ac*(*(d3_l->extra+off)));
+       if(carry!=0)
+       {
+        *(d3_l->extra+off)-=carry;
+        *(d3_l->extra+offset)+=carry;
+       }
+      }
+      if(k!=d3_l->max_z-1)
+      {
+       off=i+j*d3_l->max_x+(k+1)*d3_l->max_x*d3_l->max_y;
+       carry=0;
+       if(!*(d3_l->status+off)&AMORPH) carry=(int)(my_info->dr_ac*(*(d3_l->extra+off)));
+       if(carry!=0)
+       {
+        *(d3_l->extra+off)-=carry;
+        *(d3_l->extra+offset)+=carry;
+       }
+      }
+     }  
     } else
-    /* case not amorph */
+    /* case not amorph: cryst <-> cryst diffusion */
+    if(my_info->c_diff) {
+    /* if there is c diff, no diff in z-direction */
     {
-     /* look at neighbours and move c ions */     
      for(c=-1;c<=1;c++) 
      {
       if(c!=0)
       {
        off=i+((j+c+d3_l->max_y)%d3_l->max_y)*d3_l->max_x+k*d3_l->max_x*d3_l->max_y;
        carry=0;
-       /* case neighbour not amorph */
        if(!(*(d3_l->status+off)&AMORPH))
        {
-        carry=(*(d3_l->extra+off)-*(d3_l->extra+offset))/2;
+        carry=(int)(my_info->dr_cc*(*(d3_l->extra+off)-*(d3_l->extra+offset))/2);
         if(carry!=0)
         {
          *(d3_l->extra+offset)+=carry;
@@ -198,10 +257,9 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
       {
        off=((i+c+d3_l->max_x)%d3_l->max_x)+j*d3_l->max_x+k*d3_l->max_x*d3_l->max_y;
        carry=0;
-       /* case neighbour not amorph */
        if(!(*(d3_l->status+off)&AMORPH))
        {
-	carry=(*(d3_l->extra+off)-*(d3_l->extra+offset))/2;
+	carry=(int)(my_info->dr_cc*(*(d3_l->extra+off)-*(d3_l->extra+offset))/2);
 	if(carry!=0)
         {
          *(d3_l->extra+offset)+=carry;
@@ -210,87 +268,608 @@ int distrib_c(d3_lattice *d3_l,double d_r,double a,double b,char z_diff)
        }
       }
      }
-     /* cryst -> amorph diffusion in z direction */
-     if(z_diff)
-     {
-      for(c=1;c>=-1;c--)
-      {
-       off=i+j*d3_l->max_x+((k+c+d3_l->max_z)%d3_l->max_z)*d3_l->max_x*d3_l->max_y;
-       carry=0;
-       if(*(d3_l->status+off)&AMORPH) carry=(int)(d_r*(*(d3_l->extra+off)));
-       if(carry!=0)
-       {
-        *(d3_l->extra+offset)+=carry;
-	*(d3_l->extra+off)-=carry;
-       }
-      }
-     } /* if z_diff */
     }
+    /* end test */
+    }
+    /* */
    } /* for z */
   } /* for y */
  } /* for x */
 
+ } /* if step modulo diff_rate == 0 */
+
  return 1;
 }
 
-int distrib_c_old(d3_lattice *d3_l,int t_c,double a,double b)
+int calc_pressure(d3_lattice *d3_l,int range)
 {
- int i,j,k,total,area;
- double sum;
- int temp,left;
- int *area_h;
- u32 x,y,z;
+ int i,j,off;
+ double count,max=0;
+ int x,y,z;
+
+ for(x=0;x<d3_l->max_x;x++)
+ {
+  for(y=0;y<d3_l->max_y;y++)
+  {
+   for(z=0;z<d3_l->max_z;z++)
+   {
+    count=0;
+    for(i=-range;i<=range;i++)
+    {
+     for(j=-range;j<=range;j++)
+     {
+      if(i!=0 && j!=0)
+      {
+       off=((x+d3_l->max_x+i)%d3_l->max_x)+((y+d3_l->max_y+j)%d3_l->max_x)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
+       if(*(d3_l->status+off)&AMORPH) count+=((double)*(d3_l->extra+off))/(i*i+j*j);
+      }
+     }
+    }
+    if(count>max) max=count;
+   }
+  }
+ }
+
+ for(x=0;x<d3_l->max_x;x++)
+ {
+  for(y=0;y<d3_l->max_y;y++)
+  {
+   for(z=0;z<d3_l->max_z;z++)
+   {
+    count=0;
+    for(i=-range;i<=range;i++)
+    {
+     for(j=-range;j<=range;j++)
+     {
+      if(i!=0 && j!=0)
+      {
+       off=((x+d3_l->max_x+i)%d3_l->max_x)+((y+d3_l->max_y+j)%d3_l->max_x)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
+       if(*(d3_l->status+off)&AMORPH) count+=((double)*(d3_l->extra+off))/(i*i+j*j);
+      }
+     }
+    }
+    *(unsigned char *)(d3_l->v_ptr+x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)=(unsigned char)(count*255/max);
+   }
+  }
+ }
+
+ return 1;
+}
+
+int calc_max_extra(d3_lattice *d3_l)
+{
+ int x,y,z;
+ int off,max=0;
+
+ for(x=0;x<d3_l->max_x;x++)
+ {
+  for(y=0;y<d3_l->max_y;y++)
+  {
+   for(z=0;z<d3_l->max_z;z++)
+   {
+    off=x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
+    if(*(d3_l->extra+off)>max) max=*(d3_l->extra+off);
+   }
+  }
+ }
 
- area=d3_l->max_x*d3_l->max_y;
- area_h=(int *)malloc(d3_l->max_z*sizeof(int));
+ return max;
+}
 
- total=0;
- sum=b*d3_l->max_z+a*d3_l->max_z*(d3_l->max_z+1)/2;
- for(i=0;i<d3_l->max_z;i++)
+int write_ac_distr(d3_lattice *d3_l,int ac_distr)
+{
+ int fd,x,y,z;
+ int count,offset;
+ char file[32];
+ int si_count;
+ 
+ si_count=d3_l->max_x*d3_l->max_y*SI_PER_VOLUME;
+ if(ac_distr==1) strcpy(file,"carbon_in_av.plot");
+ if(ac_distr==2) strcpy(file,"carbon_in_cv.plot");
+ if(ac_distr==3) strcpy(file,"carbon.plot");
+ if(ac_distr==4) strcpy(file,"amorphous_volumes.plot");
+
+ if((fd=open(file,O_WRONLY|O_CREAT))<0)
  {
-  area_h[i]=0;
-  for(j=0;j<area;j++)
+  puts("cannot open plot file");
+  return -1;
+ }
+
+ for(z=0;z<d3_l->max_z;z++)
+ {
+  count=0;
+  for(x=0;x<d3_l->max_x;x++)
   {
-   if(!(*(d3_l->status+(i*area)+j)&AMORPH))
+   for(y=0;y<d3_l->max_y;y++)
    {
-    area_h[i]+=1;
+    offset=x+y*d3_l->max_x+z*d3_l->max_x*d3_l->max_y;
+    if(ac_distr==1)
+     if(*(d3_l->status+offset)&AMORPH) count+=*(d3_l->extra+offset);
+    if(ac_distr==2)
+     if(!(*(d3_l->status+offset)&AMORPH)) count+=*(d3_l->extra+offset);
+    if(ac_distr==3) count+=*(d3_l->extra+offset);
+    if(ac_distr==4)
+     if(*(d3_l->status+offset)&AMORPH) count+=1;
    }
   }
-  temp=(int)((i+1)*a+b)*t_c/(sum*area_h[i]);
-  for(j=0;j<area;j++)
+#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);
+ 
+ return 1;
+}
+
+int write_bmp(d3_lattice *d3_l,int window,u32 x,u32 y,u32 z,int max)
+{
+ int fd,i,j,size=0,foo=0,k,sum;
+ int width=0,height=0;
+ char bmpfile[MAX_CHARS];
+ char buf[128];
+
+ if(window==1)
+ {
+  sprintf(bmpfile,"x-z_%d.bmp",y);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_x;
+ }
+ if(window==2)
+ {
+  sprintf(bmpfile,"y-z_%d.bmp",x);
+  foo=3*d3_l->max_y;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_y;
+ }
+ if(window==3)
+ {
+  sprintf(bmpfile,"x-y_%d.bmp",z);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_y;
+  width=d3_l->max_x;
+  height=d3_l->max_y;
+ }
+ if(window==4)
+ {
+  sprintf(bmpfile,"x-z_cdistr_%d.bmp",y);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_x;
+ }
+ if(window==5)
+ {
+  sprintf(bmpfile,"y-z_cdistr_%d.bmp",x);
+  foo=3*d3_l->max_y;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_y;
+ }
+ if(window==6)
+ {
+  sprintf(bmpfile,"x-y_cdistr_%d.bmp",z);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_y;
+  width=d3_l->max_x;
+  height=d3_l->max_y;
+ }
+ if(window==7)
+ {
+  sprintf(bmpfile,"x-z_a_cdistr_%d.bmp",y);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_x;
+ }
+ if(window==8)
+ {
+  sprintf(bmpfile,"y-z_a_cdistr_%d.bmp",x);
+  foo=3*d3_l->max_y;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_y;
+ }
+ if(window==9)
+ {
+  sprintf(bmpfile,"x-y_a_cdistr_%d.bmp",z);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_y;
+  height=d3_l->max_y;
+  width=d3_l->max_x;
+ }
+ if(window==10)
+ {
+  sprintf(bmpfile,"x-z_c_cdistr_%d.bmp",y);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_x;
+ }
+ if(window==11)
+ {
+  sprintf(bmpfile,"y-z_c_cdistr_%d.bmp",x);
+  foo=3*d3_l->max_y;
+  size=(foo+(4-foo%4))*d3_l->max_z;
+  height=d3_l->max_z;
+  width=d3_l->max_y;
+ }
+ if(window==12)
+ {
+  sprintf(bmpfile,"x-y_c_cdistr_%d.bmp",z);
+  foo=3*d3_l->max_x;
+  size=(foo+(4-foo%4))*d3_l->max_y;
+  height=d3_l->max_y;
+  width=d3_l->max_x;
+ }
+ if((fd=open(bmpfile,O_WRONLY|O_CREAT))<0)
+ {
+  puts("cannot open bmp file");
+  return -1;
+ }
+
+ /* bmpheader */
+ buf[0]='B'; /* std header start */
+ buf[1]='M';
+ buf[2]=(size+0x36)&0xff; /* file size */
+ buf[3]=(size+0x36)>>8;
+ memset(buf+4,0,6);
+ buf[10]=0x36; /* offset to data */
+ memset(buf+11,0,3);
+ buf[14]=0x28; /* length of bmp info header */
+ memset(buf+15,0,3);
+ buf[18]=width&0xff; /* width and height */
+ buf[19]=width>>8;
+ memset(buf+20,0,2);
+ buf[22]=height&0xff;
+ buf[23]=height>>8;
+ memset(buf+24,0,2);
+ buf[26]=1; /* # planes -> 1 */
+ buf[27]=0;
+ buf[28]=24; /* bits per pixel -> 2^24 (true color) */
+ buf[29]=0;
+ memset(buf+30,0,4); /* compression -> none */
+ buf[34]=size&0xff; /* data size */
+ buf[35]=size>>8;
+ memset(buf+36,0,2);
+ buf[38]=0x12; /* res: pixel/meter */
+ buf[39]=0x0b;
+ memset(buf+40,0,2);
+ buf[42]=0x12;
+ buf[43]=0x0b;
+ memset(buf+44,0,2); 
+ memset(buf+46,0,8); /* no colors, no important colors */
+
+ if(write(fd,buf,54)<54)
+ {
+  puts("failed writing bmp header");
+  return -1;
+ }
+ if(window==1)
+ {
+  for(j=0;j<d3_l->max_z;j++)
+  {
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    sum=0;
+    for(k=-2;k<=2;k++)
+     if(*(d3_l->status+i+(((y+k+d3_l->max_y)%d3_l->max_y)*d3_l->max_x)+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED) sum+=0xff;
+    sum/=5;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   } 
+  }
+ }
+ if(window==2)
+ {
+  for(j=0;j<d3_l->max_z;j++)
   {
-   if(!(*(d3_l->status+(i*area)+j)&AMORPH))
+   for(i=0;i<d3_l->max_y;i++)
+   {
+    sum=0;
+    for(k=-2;k<=2;k++)
+     if(*(d3_l->status+((x+k+d3_l->max_x)%d3_l->max_x)+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED) sum+=0xff;
+    sum/=5;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   }
+   if(foo%4)
    {
-    *(d3_l->extra+(i*area)+j)=temp;
-    total+=temp;
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
    }
   }
-  left=(int)(((i+1)*a+b)*t_c/sum)%area_h[i];
-  while(left)
+ }
+ if(window==3)
+ {
+  for(j=0;j<d3_l->max_y;j++)
   {
-   x=get_rand(d3_l->max_x);
-   y=get_rand(d3_l->max_y);
-   if(!(*(d3_l->status+(i*area)+x+y*d3_l->max_x)&AMORPH))
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(*(d3_l->status+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&RED) memset(buf,0xff,3);
+    else memset(buf,0,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return -1;
+    }
+   }
+   if(foo%4)
    {
-    *(d3_l->extra+(i*area)+x+y*d3_l->max_x)+=1;
-    total+=1;
-    left-=1;
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
    }
   }
  }
- left=t_c-total;
- while(left)
+ if(window==4)
  {
-  x=get_rand(d3_l->max_x);
-  y=get_rand(d3_l->max_y);
-  z=get_rand_lgp(d3_l->max_z,a,b);
-  if(!(*(d3_l->status+x+y*d3_l->max_x+z*area)&AMORPH))
+  for(j=0;j<d3_l->max_z;j++)
   {
-   *(d3_l->extra+x+y*d3_l->max_x+z*area)+=1;
-   left-=1;
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    sum=*(d3_l->extra+i+y*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
   }
  }
- free(area_h);
+ if(window==5)
+ { 
+  for(j=0;j<d3_l->max_z;j++) 
+  {                     
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    sum=*(d3_l->extra+x+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;  
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ if(window==6)
+ {   
+  for(j=0;j<d3_l->max_y;j++)
+  {  
+   for(i=0;i<d3_l->max_x;i++)
+   { 
+    sum=*(d3_l->extra+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y);
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   } 
+   if(foo%4)
+   { 
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   } 
+  }
+ }
+ if(window==7)
+ {
+  for(j=0;j<d3_l->max_z;j++)
+  {
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(*(d3_l->status+i+y*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED) sum=*(d3_l->extra+i+y*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ if(window==8)
+ { 
+  for(j=0;j<d3_l->max_z;j++) 
+  {                     
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(*(d3_l->status+x+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED) sum=*(d3_l->extra+x+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;  
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ if(window==9)
+ {   
+  for(j=0;j<d3_l->max_y;j++)
+  {  
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(*(d3_l->status+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&RED) sum=*(d3_l->extra+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   } 
+   if(foo%4)
+   { 
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   } 
+  }
+ }
+ if(window==10)
+ {
+  for(j=0;j<d3_l->max_z;j++)
+  {
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(!(*(d3_l->status+i+y*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED)) sum=*(d3_l->extra+i+y*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ if(window==11)
+ { 
+  for(j=0;j<d3_l->max_z;j++) 
+  {                     
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(!(*(d3_l->status+x+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y)&RED)) sum=*(d3_l->extra+x+i*d3_l->max_x+(d3_l->max_z-j-1)*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;  
+    }
+   }
+   if(foo%4)
+   {
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ if(window==12)
+ {   
+  for(j=0;j<d3_l->max_y;j++)
+  {  
+   for(i=0;i<d3_l->max_x;i++)
+   {
+    if(!(*(d3_l->status+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y)&RED)) sum=*(d3_l->extra+i+(d3_l->max_y-j-1)*d3_l->max_x+z*d3_l->max_x*d3_l->max_y);
+    else sum=0;
+    sum=sum*255/max;
+    memset(buf,(unsigned char)sum,3);
+    if(write(fd,buf,3)<3)
+    {
+     puts("failed writing rgb values to bmp file");
+     return-1;
+    }
+   } 
+   if(foo%4)
+   { 
+    memset(buf,0,4-foo%4);
+    if(write(fd,buf,4-foo%4)<4-foo%4)
+    {
+     puts("failed writing 4 byte ending");
+     return -1;
+    }
+   }
+  }
+ }
+ close(fd);
 
  return 1;
 }
@@ -332,7 +911,8 @@ int save_to_file(char *sf,d3_lattice *d3_l,info *my_inf)
 
 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)
  {
@@ -344,11 +924,31 @@ int load_from_file(char *lf,d3_lattice *d3_l,info *my_inf)
   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)
  {
@@ -377,6 +977,7 @@ int load_from_file(char *lf,d3_lattice *d3_l,info *my_inf)
 
 int convert_file(char *cf,d3_lattice *d3_l)
 {
+#ifndef MAC
  int x,y,z;
  int c_fd;
 
@@ -397,44 +998,166 @@ int convert_file(char *cf,d3_lattice *d3_l)
   }
  }
  close(c_fd);
+#endif
 
  return 1;
 }
 
+int get_c_ratio(double *c_ratio,char *pfile,info *my_info,d3_lattice *d3_l)
+{
+ double all,a,b,d;
+ int i,k;
+ int p_fd;
+ unsigned char buf[32];
+ char *p;
+ unsigned char c;
+
+ if((p_fd=open(pfile,O_RDONLY))<0)
+ {
+  puts("cannot open profile file");
+  return -1;
+ }
+ k=1;
+ d=0;
+ all=0;
+ while(k)
+ {
+  for(i=0;i<32;i++)
+  {
+   k=read(p_fd,&c,1);
+   buf[i]=c;
+   if(c=='\n') break;
+  }
+  if(k)
+  {
+   p=strtok(buf," ");
+   a=atof(p)/10; /* nm */
+   p=strtok(NULL," ");
+   b=atof(p);
+   if(a<=d3_l->max_z*CELL_LENGTH) d+=b;
+   all+=b;
+  }
+ }
+ *c_ratio=d/all;
+ close(p_fd);
+
+ return 1;
+}
+
+u32 get_reject_graph(info *my_info,d3_lattice *d3_l,char *file,u32 *graph) {
+ double a,b;
+ int i,j,k;
+ int fd;
+ char buf[32],*p;
+ unsigned char *flag;
+ u32 max;
+
+ max=0;
+ if((fd=open(file,O_RDONLY))<0)
+ {
+  puts("cannot open file to calculate rejection graph");
+  return -1;
+ }
+ if((flag=(unsigned char *)malloc(d3_l->max_z))==NULL)
+ {
+  puts("cannot malloc flag memory for rejection graph");
+  return -1;
+ }
+ memset(flag,0,d3_l->max_z);
+ memset(graph,0,d3_l->max_z*sizeof(u32));
+ /* get fixpoints */
+ k=1;
+ while(k)
+ {
+  for(i=0;i<32;i++)
+  {
+   k=read(fd,&buf[i],1);
+   if((buf[i]=='\n')||(k==0)) break;
+  }
+  if(k)
+  {
+   p=strtok(buf," ");
+   a=atof(p)/10; /* nm */
+   p=strtok(NULL," ");
+   b=atof(p);
+   if(a>d3_l->max_z*CELL_LENGTH) k=0;
+   else 
+   {
+    graph[(int)(a/CELL_LENGTH)]=(int)(URAND_MAX/100*b);
+    flag[(int)(a/CELL_LENGTH)]=1;
+   }
+  }
+ }
+ /* do (linear) interpolation here! */
+ i=0;
+ a=0;
+ while(i<d3_l->max_z)
+ {
+  /* graph[0] is 0! */
+  j=i;
+  i++;
+  while(flag[i]==0&&i<d3_l->max_z) i++;
+  for(k=j+1;k<i;k++) graph[k]=(int)((k-j)*((int)graph[i]-(int)graph[j])/(i-j))+graph[j];
+  if(graph[i]>max) max=graph[i];
+ }
+
+ free(flag);
+
+#ifdef DEBUG_INTERPOL_PROFILE
+ printf("debug: %s (interpolated profile)\n",file);
+ for(i=0;i<d3_l->max_z;i++) printf("%d %d\n",i,graph[i]);
+#endif
+
+ return max;
+}
+
 int main(int argc,char **argv)
 {
  u32 x,y,z,x_c,y_c,z_c;
- int i,quit,escape,nowait;
+ int i,j,quit,escape,switchmode,nowait,bmp,ac_distr;
  int refresh,resave;
- char z_diff;
+ int c_step;
  char s_file[MAX_CHARS];
  char s_file_tmp[MAX_CHARS];
  char l_file[MAX_CHARS];
  char c_file[MAX_CHARS];
+ char p_file[MAX_CHARS];
+ char n_e_file[MAX_CHARS];
  char convert;
  char r_file[MAX_CHARS];
 #ifdef USE_DFB_API
- char x_txt[MAX_TXT];
- char y_txt[MAX_TXT];
- char z_txt[MAX_TXT];
+ char xyz_txt[MAX_TXT];
  char status_txt[MAX_TXT];
  char conc_txt[MAX_TXT];
  char steps_txt[MAX_TXT];
  char cc_txt[MAX_TXT];
  char a_txt[MAX_TXT];
  char s_txt[MAX_TXT];
- char ap_txt[MAX_TXT];
- char el_txt[MAX_TXT];
- char cd_txt[MAX_TXT];
+ char ballistic_txt[MAX_TXT];
+ char carbon_txt[MAX_TXT];
+ char stress_txt[MAX_TXT];
  char r_txt[MAX_TXT];
- char ap2_txt[MAX_TXT];
- char cd2_txt[MAX_TXT];
- char el2_txt[MAX_TXT];
- char dr_txt[MAX_TXT];
+ char zdiff_txt[MAX_TXT];
+ char diff_txt[MAX_TXT];
+ char dr_ac_txt[MAX_TXT];
+ char dr_cc_txt[MAX_TXT];
+ char dose_txt[MAX_TXT];
+ char mode_txt[MAX_TXT];
+ char hpi_txt[MAX_TXT];
+ char csat_txt[MAX_TXT];
  char *arg_v[MAX_ARGV];
 #endif
  d3_lattice d3_l;
  info my_info;
+ unsigned char mode;
+ //double c_ratio;
+#ifdef USE_DFB_API
+ int max_extra;
+#endif
+ u32 *c_profile;
+ u32 *n_e_loss;
+ u32 ne_max,ip_max;
+ u32 nel_z;
 
  d3_l.max_x=X;
  d3_l.max_y=Y;
@@ -443,23 +1166,36 @@ int main(int argc,char **argv)
  my_info.range=RANGE;
  refresh=REFRESH;
  resave=RESAVE;
- z_diff=0;
- my_info.a_el=A_EL;
- my_info.b_el=B_EL;
- my_info.a_cd=A_CD;
- my_info.b_cd=B_CD;
- my_info.a_ap=A_AP;
- my_info.b_ap=B_AP;
+ my_info.z_diff=0;
+ my_info.c_diff=1;
+ my_info.s=S_D;
+ my_info.b=B_D;
+ my_info.c=C_D;
  my_info.cc=CC;
- my_info.d_r=D_R;
+ my_info.dr_ac=DR_AC;
+ my_info.dr_cc=DR_CC;
+ my_info.diff_rate=DIFF_RATE;
+ my_info.cpi=CPI;
+ my_info.s_rate=S_RATE;
  nowait=0;
  quit=0;
  escape=0;
+ switchmode=0;
+ c_step=0;
  strcpy(s_file,"");
  strcpy(l_file,"");
  strcpy(c_file,"");
+ strcpy(p_file,IMP_PROFILE);
+ strcpy(n_e_file,NEL_PROFILE);
  convert=0;
  strcpy(r_file,"");
+ mode=0;
+ ne_max=0;
+ ip_max=0;
+
+#ifdef MORE_PRINTF
+ printf("reading argv ...");
+#endif
 
  for(i=1;i<argc;i++)
  {
@@ -473,12 +1209,6 @@ int main(int argc,char **argv)
     case 'n':
      nowait=1;
      break;
-    case 'a':
-     my_info.a_el=atof(argv[++i]);
-     break;
-    case 'b':
-     my_info.b_el=atof(argv[++i]);
-     break;
     case 'x':
      d3_l.max_x=atoi(argv[++i]);
      break;
@@ -488,18 +1218,13 @@ int main(int argc,char **argv)
     case 'z':
      d3_l.max_z=atoi(argv[++i]);
      break;
-    /*
-    case 'X':
-     x=atoi(argv[++i]);
-     break;
-    case 'Y':
-     y=atoi(argv[++i]);
-     break;
-    */
     case 'Z':
-     z_diff=1;
+     my_info.z_diff=1;
+     break;
+    case 'i':
+     my_info.c_diff=0;
+     my_info.dr_cc=0;
      break;
-    /* */
     case 's':
      my_info.steps=atoi(argv[++i]);
      break;
@@ -510,22 +1235,14 @@ int main(int argc,char **argv)
      my_info.range=atoi(argv[++i]);
      break;
     case 'f':
-     my_info.a_ap=atof(argv[++i]);
+     my_info.s=atof(argv[++i]);
      break;
     case 'p':
-     my_info.b_ap=atof(argv[++i]);
-     break;
-    case 'A':
-     my_info.a_cd=atof(argv[++i]);
+     my_info.b=atof(argv[++i]);
      break;
-    case 'B':
-     my_info.b_cd=atof(argv[++i]);
+    case 'F':
+     my_info.c=atof(argv[++i]);
      break;
-    /*
-    case 'C':
-     my_info.cc=atoi(argv[++i]);
-     break;
-    */
     case 'W':
      resave=atoi(argv[++i]);
      break;
@@ -535,7 +1252,13 @@ int main(int argc,char **argv)
      convert=1;
      break;
     case 'D':
-     my_info.d_r=atof(argv[++i]);
+     my_info.dr_ac=atof(argv[++i]);
+     break;
+    case 'c':
+     my_info.dr_cc=atof(argv[++i]);
+     break;
+    case 'e':
+     my_info.diff_rate=atoi(argv[++i]);
      break;
     case 'L':
      strcpy(l_file,argv[++i]);
@@ -546,6 +1269,22 @@ int main(int argc,char **argv)
     case 'R':
      strcpy(r_file,argv[++i]);
      break;
+    case 'P':
+     strcpy(p_file,argv[++i]);
+     break;
+    case 'N':
+     strcpy(n_e_file,argv[++i]);
+     break;
+    case 'g':
+     strcpy(l_file,argv[++i]);
+     if(i<argc-1) if(argv[i+1][0]!='-') c_step=atoi(argv[++i]);
+     break;
+    case 'H':
+     my_info.cpi=atoi(argv[++i]);
+     break;
+    case 'm':
+     my_info.s_rate=atoi(argv[++i]);
+     break;
     default:
      usage();
      return -1;
@@ -553,6 +1292,10 @@ int main(int argc,char **argv)
   } 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;
@@ -565,9 +1308,18 @@ int main(int argc,char **argv)
  }
 #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;
@@ -596,12 +1348,16 @@ int main(int argc,char **argv)
    convert_file(c_file,&d3_l);
    puts("done");
    return 1;
-  } 
+  }
 #ifdef USE_DFB_API
-    else d3_lattice_init(&argc,argv,&d3_l);
+  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
@@ -609,64 +1365,139 @@ int main(int argc,char **argv)
 #ifdef USE_DFB_API
  strcpy(a_txt,"args:");
  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,"pressure faktor: %.2f",my_info.a_ap);
- sprintf(ap2_txt,"pressure offset: %.2f",my_info.b_ap);
- sprintf(el_txt,"energy loss slope: %.2f",my_info.a_el);
- sprintf(el2_txt,"energy loss offset: %.2f",my_info.b_el);
- sprintf(cd_txt,"c distrib slope: %.2f",my_info.a_cd);
- sprintf(cd2_txt,"c distrib offset: %.2f",my_info.b_cd);
- sprintf(dr_txt,"diffusion rate: %.2f",my_info.d_r);
- arg_v[1]=x_txt;
- arg_v[2]=y_txt;
- arg_v[3]=z_txt;
- arg_v[4]=NULL;
- arg_v[5]=status_txt;
- arg_v[6]=conc_txt;
- arg_v[7]=NULL;
+ sprintf(stress_txt,"stress term: %f",my_info.s);
+ sprintf(ballistic_txt,"ballistic term: %f",my_info.b);
+ sprintf(carbon_txt,"carbon term: %f",my_info.c);
+ 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");
+ sprintf(zdiff_txt,"diffusion in z direction: %c",my_info.z_diff?'y':'n');
+ sprintf(diff_txt,"diffusion every %d steps",my_info.diff_rate);
+ strcpy(mode_txt,"view: a/c mode");
+ sprintf(hpi_txt,"hits per ion: %d",my_info.cpi);
+ sprintf(csat_txt,"sputter rate (3nm/#c): %d",my_info.s_rate);
+ arg_v[1]=mode_txt;
+ arg_v[2]=xyz_txt;
+ arg_v[3]=status_txt;
+ arg_v[4]=conc_txt;
+ arg_v[5]=NULL;
+ arg_v[6]=steps_txt;
+ arg_v[7]=cc_txt;
  arg_v[8]=NULL;
- arg_v[9]=NULL;
- arg_v[10]=steps_txt;;
- arg_v[11]=cc_txt;
- arg_v[12]=NULL;
- arg_v[13]=NULL;
- arg_v[14]=a_txt;
- arg_v[15]=NULL;
- arg_v[16]=s_txt;
- arg_v[17]=r_txt;
- arg_v[18]=ap_txt;
- arg_v[19]=ap2_txt;
- arg_v[20]=el_txt;
- arg_v[21]=el2_txt;
- arg_v[22]=cd_txt;
- arg_v[23]=cd2_txt;
- arg_v[24]=dr_txt;
+ arg_v[9]=a_txt;
+ arg_v[10]=s_txt;
+ arg_v[11]=dose_txt;
+ arg_v[12]=diff_txt;
+ arg_v[13]=zdiff_txt;
+ arg_v[14]=r_txt;
+ 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;
+ arg_v[25]=NULL;
 #endif
 
- if(!strcmp(l_file,""))
+#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)
+ {
+  puts("failed allocating memory for carbon profile graph");
+  return -1;
+ }
+ if((n_e_loss=(u32 *)malloc(d3_l.max_z*sizeof(unsigned int)))==NULL)
+ {
+  puts("failed allocating memory for nuclear energy loss graph");
+  return -1;
+ }
+ ip_max=get_reject_graph(&my_info,&d3_l,p_file,c_profile);
+ ne_max=get_reject_graph(&my_info,&d3_l,n_e_file,n_e_loss);
+
+#ifdef MORE_PRINTF
+ printf(" done\n");
+#endif
+
+
+ if((!strcmp(l_file,""))||(c_step))
+ {
+
+  /* this should be obsolete - z is high enough - we check now! */
+  if(c_profile[d3_l.max_z-1]!=0)
+  {
+   printf("max_z (%d) too small - sputtering not possible\n",d3_l.max_z);
+   return -1;
+  }
+  /* calculate ratio of c_simwindow / c_total */
+  //if(get_c_ratio(&c_ratio,p_file,&my_info,&d3_l)!=1)
+  //{
+  // puts("failed calculating ratio");
+  // return -1;
+  //}
+
+  /* sputtering realy possible ?*/
+  if(n_e_loss[d3_l.max_z-1]!=0)
+   printf("warning: max_z (%d) too small - there may be amorphous volumes\n",d3_l.max_z);
+
+#ifdef DEBUG_RAND
+ i=0;
+ while(1)
  {
-  i=0;
+#ifdef DEBUG_CP
+  printf("%d\n",get_rand_reject(d3_l.max_z,ip_max,c_profile));
+#endif
+#ifdef DEBUG_NEL
+  printf("%d\n",get_rand_reject(d3_l.max_z,ne_max,n_e_loss));
+#endif
+#ifdef DEBUG_NORM
+  printf("%d\n",get_rand(d3_l.max_z));
+#endif
+ if(i==10000000) return 1;
+ i++;
+ }
+#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))
   {
-   x_c=get_rand(d3_l.max_x);
-   y_c=get_rand(d3_l.max_y);
-   z_c=get_rand_lgp(d3_l.max_z,my_info.a_el,my_info.b_el);
-   distrib_c(&d3_l,my_info.d_r,my_info.a_cd,my_info.b_cd,z_diff);
-   process_cell(&d3_l,x_c,y_c,z_c,my_info.range,my_info.a_ap,my_info.b_ap,&(my_info.cc));
+#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);
+    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*(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,ip_max,c_profile);
 #ifdef USE_DFB_API
    if(i%refresh==0)
    {
-    sprintf(x_txt,"x: %d",x+1);
-    sprintf(y_txt,"y: %d",y+1);
-    sprintf(z_txt,"z: %d",z+1);
+    sprintf(xyz_txt,"x: %d  y: %d  z: %d",x+1,y+1,z+1);
     sprintf(status_txt,"status: %c",(*(d3_l.status+x+y*d3_l.max_x+z*d3_l.max_x*d3_l.max_y)&AMORPH)?'a':'c');
     sprintf(conc_txt,"conc: %d",*(d3_l.extra+x+y*d3_l.max_x+z*d3_l.max_x*d3_l.max_y));
     sprintf(steps_txt,"step: %d",i);
     sprintf(cc_txt,"total c: %d",my_info.cc);
-    d3_lattice_draw(&d3_l,x,y,z,24,arg_v);
+    d3_lattice_draw(&d3_l,x,y,z,25,arg_v,mode,0,NULL,0,NULL,0);
    }
 #endif
-   if(i%resave==0 && strcmp(s_file,"") && resave!=0)
+   if(i%resave==0 && strcmp(s_file,"") && resave!=0 && i!=0)
    {
     sprintf(s_file_tmp,"%s_%d_of_%d",s_file,i,my_info.steps);
     save_to_file(s_file_tmp,&d3_l,&my_info);
@@ -675,6 +1506,7 @@ int main(int argc,char **argv)
 #endif
    }
    i++;
+   if(i%my_info.s_rate==0) sputter(&d3_l);
   }
  }
 
@@ -685,17 +1517,39 @@ int main(int argc,char **argv)
  }
 
 #ifdef USE_DFB_API
+ /* allocating buffer for pressure values */
+ if((d3_l.v_ptr=malloc(d3_l.max_x*d3_l.max_y*d3_l.max_z*sizeof(unsigned char)))==NULL)
+ {
+  puts("cannot allocate buffer for pressure values");
+  return -1;
+ }
+ /* calc values */
+ calc_pressure(&d3_l,my_info.range);
+ max_extra=calc_max_extra(&d3_l);
+
  while((quit==0) && (escape==0) && (nowait==0))
  {
-  sprintf(x_txt,"x: %d",x+1);
-  sprintf(y_txt,"y: %d",y+1);
-  sprintf(z_txt,"z: %d",z+1);
+  /* bahh! */
+  if(switchmode==0) mode=0;
+  if(switchmode==1) mode=1;
+  if(switchmode==2) mode=2;
+  if(switchmode==3) mode=3;
+  /* end of bahh! */
+  sprintf(xyz_txt,"x: %d  y: %d  z: %d",x+1,y+1,z+1);
   sprintf(status_txt,"status: %c",(*(d3_l.status+x+y*d3_l.max_x+z*d3_l.max_x*d3_l.max_y)&AMORPH)?'a':'c');
   sprintf(conc_txt,"conc: %d",*(d3_l.extra+x+y*d3_l.max_x+z*d3_l.max_x*d3_l.max_y));
-  strcpy(steps_txt,"step: end!");
+  sprintf(steps_txt,"step: end");
   sprintf(cc_txt,"total c: %d",my_info.cc);
-  d3_lattice_draw(&d3_l,x,y,z,24,arg_v);
-  scan_event(&d3_l,&x,&y,&z,&quit,&escape);
+  if(switchmode==0) strcpy(mode_txt,"view: a/c mode");
+  if(switchmode==1) strcpy(mode_txt,"view: c conc mode");
+  if(switchmode==2) strcpy(mode_txt,"view: a pressure mode");
+  if(switchmode==3) strcpy(mode_txt,"view: a/c + profiles mode");
+  d3_lattice_draw(&d3_l,x,y,z,25,arg_v,mode,max_extra,c_profile,ip_max,n_e_loss,ne_max);
+  bmp=0;
+  ac_distr=0;
+  scan_event(&d3_l,&x,&y,&z,&quit,&escape,&switchmode,&bmp,&ac_distr);
+  if(bmp) write_bmp(&d3_l,bmp,x,y,z,max_extra);
+  if(ac_distr) write_ac_distr(&d3_l,ac_distr);
  }
 
  d3_lattice_release(&d3_l);