From 5eefcc281fda031d322599fd7094da4fc8450948 Mon Sep 17 00:00:00 2001
From: Samo Penic <samo.penic@gmail.com>
Date: Tue, 25 Sep 2018 13:55:53 +0000
Subject: [PATCH] Debugged

---
 src/restore.c |   98 ++++++++++++++++++++++++++++++++++++++++++++++--
 1 files changed, 93 insertions(+), 5 deletions(-)

diff --git a/src/restore.c b/src/restore.c
index 545cc84..c89ff6d 100644
--- a/src/restore.c
+++ b/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])];

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