Trisurf Monte Carlo simulator
blame | history | patch | commit | commitdiff | ignore whitespace
Samo Penic
2017-01-04 61ad95ca712a374f6e58127fda738b67c57d743d 
 src/restore.c


@@ -54,9 +54,14 @@


            if ((!xmlStrcmp(cur1->name, (const xmlChar *)"Piece"))){


               cur2=cur1->xmlChildrenNode;


               while(cur2!=NULL){


                  if ((!xmlStrcmp(cur2->name, (const xmlChar *)"PointData"))){


                     if(vesicle!=NULL)


                        parseXMLPointData(vesicle,doc,cur2);


                  }


                  if ((!xmlStrcmp(cur2->name, (const xmlChar *)"Points"))){


                     //fprintf(stderr,"Found point data\n");


                     if(vesicle!=NULL)


                        //fprintf(stderr,"Fils: %ld, Nfono: %ld\n", vesicle->tape->nfil, vesicle->tape->nfono);


                        parseXMLVertexPosition(vesicle, doc, cur2);


                  }


                  if ((!xmlStrcmp(cur2->name, (const xmlChar *)"Cells"))){


@@ -80,6 +85,7 @@




   init_normal_vectors(vesicle->tlist);


   mean_curvature_and_energy(vesicle);


   sweep_attraction_bond_energy(vesicle);




/* TODO: filaments */




@@ -164,6 +170,16 @@


       if ((!xmlStrcmp(child->name, (const xmlChar *)"tristar"))){


         parseTrisurfTristar(vesicle, doc, child);


      }


       if ((!xmlStrcmp(child->name, (const xmlChar *)"nucleus"))){


         parseTrisurfNucleus(vesicle, doc, child);


      }


        if ((!xmlStrcmp(child->name, (const xmlChar *)"constant_volume"))){


         parseTrisurfConstantVolume(doc, child);


      }


        if ((!xmlStrcmp(child->name, (const xmlChar *)"constant_area"))){


         parseTrisurfConstantArea(doc, child);


      }






   child = child->next;


   }


@@ -171,13 +187,39 @@




   vesicle->tape=tape;


   set_vesicle_values_from_tape(vesicle);




   return vesicle;


}








/* Low level tags parsers */


ts_bool parseTrisurfConstantVolume(xmlDocPtr doc, xmlNodePtr cur){


   xmlChar *cvol = xmlNodeListGetString(doc, cur->xmlChildrenNode, 1);


   char *n=(char *)cvol;


   V0=atof(n);


   xmlFree(cvol);


   return TS_SUCCESS;


}


ts_bool parseTrisurfConstantArea(xmlDocPtr doc, xmlNodePtr cur){


   xmlChar *carea = xmlNodeListGetString(doc, cur->xmlChildrenNode, 1);


   char *n=(char *)carea;


   A0=atof(n);


   xmlFree(carea);


   return TS_SUCCESS;


}




ts_bool parseTrisurfNucleus(ts_vesicle *vesicle, xmlDocPtr doc, xmlNodePtr cur){


   xmlChar *coords = xmlNodeListGetString(doc, cur->xmlChildrenNode, 1);


   char *n=(char *)coords;


   char *token=strtok(n," ");


   ts_uint i;


   for(i=0;i<3;i++){


      vesicle->nucleus_center[i]=atof(token);


      token=strtok(NULL," ");


   }


   xmlFree(coords);


   return TS_SUCCESS;


}




ts_bool parseTrisurfVtxn(ts_vertex_list *vlist, xmlDocPtr doc, xmlNodePtr cur){




@@ -280,7 +322,48 @@


   return TS_SUCCESS;


}






/* this parses the data for vertices (like spontaneous curvature, etc.) */


ts_bool parseXMLPointData(ts_vesicle *vesicle,xmlDocPtr doc, xmlNodePtr cur){


   xmlNodePtr child = cur->xmlChildrenNode;


   xmlChar *property_name;


   xmlChar *values;


   char *vals;


   char *token;


   int idx, polyidx, monoidx, filidx, fonoidx;


   while (child != NULL) {


      if ((!xmlStrcmp(child->name, (const xmlChar *)"DataArray"))){


         property_name=xmlGetProp(child, (xmlChar *)"Name");


      //   fprintf(stderr,"Name: %s\n", property_name);


         if(!xmlStrcmp(property_name,(const xmlChar *)"spontaneous_curvature")){


            values=xmlNodeListGetString(doc,child->xmlChildrenNode,1);


            vals=(char *)values;


            token=strtok(vals," ");


            idx=0;


            while(token!=NULL){


               if(idx<vesicle->vlist->n){


                  vesicle->vlist->vtx[idx]->c=atof(token);


               } else if(vesicle->tape->nmono && vesicle->tape->npoly && idx<vesicle->vlist->n+vesicle->tape->nmono*vesicle->tape->npoly) {


                  polyidx=(idx-vesicle->vlist->n)/vesicle->tape->nmono;


                  monoidx=(idx-vesicle->vlist->n)%vesicle->tape->nmono;


                  vesicle->poly_list->poly[polyidx]->vlist->vtx[monoidx]->c=atof(token);


               } else {


                  filidx=(idx-vesicle->vlist->n-vesicle->tape->nmono*vesicle->tape->npoly)/vesicle->tape->nfono;


                  fonoidx=(idx-vesicle->vlist->n-vesicle->tape->nmono*vesicle->tape->npoly)%vesicle->tape->nfono;


                  //fprintf(stderr,"filidx=%d, fonoidx=%d, coord=%s,%s,%s\n",filidx,fonoidx,token[0],token[1],token[2]);


                  vesicle->filament_list->poly[filidx]->vlist->vtx[fonoidx]->c=atof(token);


               }


               idx++;


               token=strtok(NULL," ");


            }


            xmlFree(values);		


         }


         xmlFree(property_name);


      }


		


      child=child->next;


   }


   return TS_SUCCESS;


}


/* this is a parser of vertex positions and bonds from main xml data */


ts_bool parseXMLVertexPosition(ts_vesicle *vesicle,xmlDocPtr doc, xmlNodePtr cur){


   xmlNodePtr child = cur->xmlChildrenNode;


@@ -310,7 +393,7 @@


            } else {


               filidx=(idx-vesicle->vlist->n-vesicle->tape->nmono*vesicle->tape->npoly)/vesicle->tape->nfono;


               fonoidx=(idx-vesicle->vlist->n-vesicle->tape->nmono*vesicle->tape->npoly)%vesicle->tape->nfono;


               fprintf(stderr,"filidx=%d, fonoidx=%d, coord=%s,%s,%s\n",filidx,fonoidx,token[0],token[1],token[2]);


               //fprintf(stderr,"filidx=%d, fonoidx=%d, coord=%s,%s,%s\n",filidx,fonoidx,token[0],token[1],token[2]);


               vesicle->filament_list->poly[filidx]->vlist->vtx[fonoidx]->x=atof(token[0]);


               vesicle->filament_list->poly[filidx]->vlist->vtx[fonoidx]->y=atof(token[1]);


               vesicle->filament_list->poly[filidx]->vlist->vtx[fonoidx]->z=atof(token[2]);


@@ -323,7 +406,7 @@


      }


      child=child->next;


   }


   fprintf(stderr,"Came here\n");


   //fprintf(stderr,"Came here\n");


   //fprintf(stderr,"Vertices position j=%d\n",idx);   




   return TS_SUCCESS;


@@ -334,6 +417,7 @@


   char *b;


   int idx, polyidx;


   char *token[2];


   int temp_cnt=0;


   while (child != NULL) {


      conname=xmlGetProp(child, (xmlChar *)"Name");


      if ((!xmlStrcmp(child->name, (const xmlChar *)"DataArray")) && !xmlStrcmp(conname, (const xmlChar *)"connectivity") ){


@@ -345,11 +429,15 @@


         while(token[0]!=NULL){


            if(idx<3*(vesicle->vlist->n-2)){


               bond_add(vesicle->blist, vesicle->vlist->vtx[atoi(token[0])], vesicle->vlist->vtx[atoi(token[1])]);


               //fprintf(stderr,"Bonds in vesicle count idx=%d\n",idx);


            }


            else {


            //find grafted vtx


               if(vesicle->tape->npoly && vesicle->tape->nmono && (vesicle->tape->nmono-1)==(idx-3*(vesicle->vlist->n-2))%(vesicle->tape->nmono)


                  && idx<(3*vesicle->vlist->n-2+vesicle->tape->nmono*vesicle->tape->npoly+vesicle->tape->npoly)){


                  && idx<(3*vesicle->vlist->n-2+vesicle->tape->nmono*vesicle->tape->npoly)){


                  temp_cnt++;


                  //fprintf(stderr,"%d: Bonds in poly count idx=%d, t1=%s t2=%s\n",temp_cnt,idx, token[0], token[1]);


						


                  polyidx=(idx-3*(vesicle->vlist->n-2))/(vesicle->tape->nmono);


                  //fprintf(stderr,"poly=%d, vertex=%d\n",polyidx,atoi(token[0]));


                  vesicle->poly_list->poly[polyidx]->grafted_vtx=vesicle->vlist->vtx[atoi(token[0])];