additions and bug fixes

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@2794 91177308-0d34-0410-b5e6-96231b3b80d8

1 files changed, 503 insertions, 151 deletions

diff --git a/lib/Transforms/Instrumentation/ProfilePaths/GraphAuxillary.cpp b/lib/Transforms/Instrumentation/ProfilePaths/GraphAuxillary.cpp
index b2c5445c45..1eadcb6c6a 100644
--- a/lib/Transforms/Instrumentation/ProfilePaths/GraphAuxillary.cpp
+++ b/lib/Transforms/Instrumentation/ProfilePaths/GraphAuxillary.cpp
@@ -6,12 +6,15 @@
 //
 //===----------------------------------------------------------------------===//
 
-#include "Graph.h"
+#include "llvm/Transforms/Utils/UnifyFunctionExitNodes.h"
+#include "llvm/Function.h"
+#include "llvm/Pass.h"
 #include "llvm/BasicBlock.h"
+#include "llvm/Transforms/Instrumentation/Graph.h"
 #include <algorithm>
 #include <iostream>
 
-using std::list;
+//using std::list;
 using std::map;
 using std::vector;
 using std::cerr;
@@ -25,13 +28,13 @@ static bool edgesEqual(Edge  ed1, Edge ed2){
 static void getChords(vector<Edge > &chords, Graph &g, Graph st){
   //make sure the spanning tree is directional
   //iterate over ALL the edges of the graph
-  list<Node *> allNodes=g.getAllNodes();
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  vector<Node *> allNodes=g.getAllNodes();
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=g.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!=NLE; ++NLI){
-      Edge f(*NI, NLI->element,NLI->weight);
+      Edge f(*NI, NLI->element,NLI->weight, NLI->randId);
       if(!(st.hasEdgeAndWt(f)))//addnl
 	chords.push_back(f);
     }
@@ -46,8 +49,8 @@ static void getChords(vector<Edge > &chords, Graph &g, Graph st){
 //the tree so that now, all edge directions in the tree match
 //the edge directions of corresponding edges in the directed graph
 static void removeTreeEdges(Graph &g, Graph& t){
-  list<Node* > allNodes=t.getAllNodes();
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  vector<Node* > allNodes=t.getAllNodes();
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList nl=t.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=nl.begin(), NLE=nl.end();	NLI!=NLE;++NLI){
@@ -64,18 +67,40 @@ static void removeTreeEdges(Graph &g, Graph& t){
 //add up the edge values, we get a path number that uniquely
 //refers to the path we travelled
 int valueAssignmentToEdges(Graph& g){
-  list<Node *> revtop=g.reverseTopologicalSort();
+  vector<Node *> revtop=g.reverseTopologicalSort();
+  /*
+  std::cerr<<"-----------Reverse topological sort\n";
+  for(vector<Node *>::iterator RI=revtop.begin(), RE=revtop.end(); RI!=RE; ++RI){
+    std::cerr<<(*RI)->getElement()->getName()<<":";
+  }
+  std::cerr<<"\n----------------------"<<std::endl;
+  */
   map<Node *,int > NumPaths;
-  for(list<Node *>::iterator RI=revtop.begin(), RE=revtop.end(); RI!=RE; ++RI){
+  for(vector<Node *>::iterator RI=revtop.begin(), RE=revtop.end(); RI!=RE; ++RI){
     if(g.isLeaf(*RI))
       NumPaths[*RI]=1;
     else{
       NumPaths[*RI]=0;
-      list<Node *> succ=g.getSuccNodes(*RI);
-      for(list<Node *>::iterator SI=succ.begin(), SE=succ.end(); SI!=SE; ++SI){
-	Edge ed(*RI,*SI,NumPaths[*RI]);
-	g.setWeight(ed);
-	NumPaths[*RI]+=NumPaths[*SI];
+      /////
+      Graph::nodeList &nlist=g.getNodeList(*RI);
+      //sort nodelist by increasing order of numpaths
+      
+      int sz=nlist.size();
+      for(int i=0;i<sz-1; i++){
+	int min=i;
+	for(int j=i+1; j<sz; j++)
+	  if(NumPaths[nlist[j].element]<NumPaths[nlist[min].element]) min=j;
+	
+	graphListElement tempEl=nlist[min];
+	nlist[min]=nlist[i];
+	nlist[i]=tempEl;
+      }
+      //sorted now!
+
+      for(Graph::nodeList::iterator GLI=nlist.begin(), GLE=nlist.end();
+	  GLI!=GLE; ++GLI){
+	GLI->weight=NumPaths[*RI];
+	NumPaths[*RI]+=NumPaths[GLI->element];
       }
     }
   }
@@ -108,19 +133,26 @@ static int inc_Dir(Edge e, Edge f){
   return -1;
 }
 
+
 //used for getting edge increments (read comments above in inc_Dir)
 //inc_DFS is a modification of DFS 
-static void inc_DFS(Graph& g,Graph& t,map<Edge, int>& Increment, 
+static void inc_DFS(Graph& g,Graph& t,map<Edge, int, EdgeCompare>& Increment, 
 	     int events, Node *v, Edge e){
   
-  list<Node *> allNodes=t.getAllNodes();
-  
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  vector<Node *> allNodes=t.getAllNodes();
+
+
+  //cerr<<"Called for\n";
+  //if(!e.isNull())
+  //printEdge(e);
+
+
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=t.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!= NLE; ++NLI){
-      Edge f(*NI, NLI->element,NLI->weight);
+      Edge f(*NI, NLI->element,NLI->weight, NLI->randId);
       if(!edgesEqual(f,e) && *v==*(f.getSecond())){
 	int dir_count=inc_Dir(e,f);
 	int wt=1*f.getWeight();
@@ -129,15 +161,15 @@ static void inc_DFS(Graph& g,Graph& t,map<Edge, int>& Increment,
     }
   }
 
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=t.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!=NLE; ++NLI){
-      Edge f(*NI, NLI->element,NLI->weight);
+      Edge f(*NI, NLI->element,NLI->weight, NLI->randId);
       if(!edgesEqual(f,e) && *v==*(f.getFirst())){
       	int dir_count=inc_Dir(e,f);
-	int wt=1*f.getWeight();
+	int wt=f.getWeight();
 	inc_DFS(g,t, Increment, dir_count*events+wt, 
 		f.getSecond(), f);
       }
@@ -145,16 +177,18 @@ static void inc_DFS(Graph& g,Graph& t,map<Edge, int>& Increment,
   }
 
   allNodes=g.getAllNodes();
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=g.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!=NLE; ++NLI){
-      Edge f(*NI, NLI->element,NLI->weight);
+      Edge f(*NI, NLI->element,NLI->weight, NLI->randId);
       if(!(t.hasEdgeAndWt(f)) && (*v==*(f.getSecond()) || 
 				  *v==*(f.getFirst()))){
 	int dir_count=inc_Dir(e,f);
 	Increment[f]+=dir_count*events;
+	//cerr<<"assigned "<<Increment[f]<<" to"<<endl;
+	//printEdge(f);
       }
     }
   }
@@ -164,19 +198,19 @@ static void inc_DFS(Graph& g,Graph& t,map<Edge, int>& Increment,
 //and assign them some values such that 
 //if we consider just this subset, it still represents
 //the path sum along any path in the graph
-static map<Edge, int> getEdgeIncrements(Graph& g, Graph& t){
+static map<Edge, int, EdgeCompare> getEdgeIncrements(Graph& g, Graph& t){
   //get all edges in g-t
-  map<Edge, int> Increment;
+  map<Edge, int, EdgeCompare> Increment;
 
-  list<Node *> allNodes=g.getAllNodes();
+  vector<Node *> allNodes=g.getAllNodes();
  
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=g.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!=NLE; ++NLI){
-      Edge ed(*NI, NLI->element,NLI->weight);
-      if(!(t.hasEdge(ed))){
+      Edge ed(*NI, NLI->element,NLI->weight,NLI->randId);
+      if(!(t.hasEdgeAndWt(ed))){
 	Increment[ed]=0;;
       }
     }
@@ -185,14 +219,13 @@ static map<Edge, int> getEdgeIncrements(Graph& g, Graph& t){
   Edge *ed=new Edge();
   inc_DFS(g,t,Increment, 0, g.getRoot(), *ed);
 
-
-  for(list<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
+  for(vector<Node *>::iterator NI=allNodes.begin(), NE=allNodes.end(); NI!=NE; 
       ++NI){
     Graph::nodeList node_list=g.getNodeList(*NI);
     for(Graph::nodeList::iterator NLI=node_list.begin(), NLE=node_list.end(); 
 	NLI!=NLE; ++NLI){
-      Edge ed(*NI, NLI->element,NLI->weight);
-      if(!(t.hasEdge(ed))){
+      Edge ed(*NI, NLI->element,NLI->weight, NLI->randId);
+      if(!(t.hasEdgeAndWt(ed))){
 	int wt=ed.getWeight();
 	Increment[ed]+=wt;
       }
@@ -202,13 +235,20 @@ static map<Edge, int> getEdgeIncrements(Graph& g, Graph& t){
   return Increment;
 }
 
+//push it up: TODO
+const graphListElement *findNodeInList(const Graph::nodeList &NL,
+					      Node *N);
+
+graphListElement *findNodeInList(Graph::nodeList &NL, Node *N);
+//end TODO
+
 //Based on edgeIncrements (above), now obtain
 //the kind of code to be inserted along an edge
 //The idea here is to minimize the computation
 //by inserting only the needed code
-static void getCodeInsertions(Graph &g, map<Edge, getEdgeCode *> &instr,
+static void getCodeInsertions(Graph &g, map<Edge, getEdgeCode *, EdgeCompare> &instr,
                               vector<Edge > &chords, 
-                              map<Edge,int> &edIncrements){
+                              map<Edge,int, EdgeCompare> &edIncrements){
 
   //Register initialization code
   vector<Node *> ws;
@@ -224,29 +264,34 @@ static void getCodeInsertions(Graph &g, map<Edge, getEdgeCode *> &instr,
       int edgeWt=nl->weight;
       Node *w=nl->element;
       //if chords has v->w
-      Edge ed(v,w);
-      
+      Edge ed(v,w, edgeWt, nl->randId);
+      //cerr<<"Assign:\n";
+      //printEdge(ed);
       bool hasEdge=false;
       for(vector<Edge>::iterator CI=chords.begin(), CE=chords.end();
 	  CI!=CE && !hasEdge;++CI){
-	if(*CI==ed){
+	if(*CI==ed && CI->getWeight()==edgeWt){//modf
 	  hasEdge=true;
 	}
       }
-      if(hasEdge){
+
+      if(hasEdge){//so its a chord edge
 	getEdgeCode *edCd=new getEdgeCode();
 	edCd->setCond(1);
 	edCd->setInc(edIncrements[ed]);
 	instr[ed]=edCd;
+	//std::cerr<<"Case 1\n";
       }
-      else if((g.getPredNodes(w)).size()==1){
+      else if(g.getNumberOfIncomingEdges(w)==1){
 	ws.push_back(w);
+	//std::cerr<<"Added w\n";
       }
       else{
 	getEdgeCode *edCd=new getEdgeCode();
 	edCd->setCond(2);
 	edCd->setInc(0);
 	instr[ed]=edCd;
+	//std::cerr<<"Case 2\n";
       }
     }
   }
@@ -257,44 +302,55 @@ static void getCodeInsertions(Graph &g, map<Edge, getEdgeCode *> &instr,
   while(!ws.empty()) {
     Node *w=ws.back();
     ws.pop_back();
-    
-    //for each edge v->w
-    list<Node *> preds=g.getPredNodes(w);
-    for(list<Node *>::iterator pd=preds.begin(), pe=preds.end(); pd!=pe; ++pd){
-      Node *v=*pd;
-      //if chords has v->w
-    
-      Edge ed(v,w);
-      getEdgeCode *edCd=new getEdgeCode();
-      bool hasEdge=false;
-      for(vector<Edge>::iterator CI=chords.begin(), CE=chords.end(); CI!=CE;
-	  ++CI){
-	if(*CI==ed){
-	  hasEdge=true;
-	  break;
+
+
+    ///////
+    //vector<Node *> lt;
+    vector<Node *> lllt=g.getAllNodes();
+    for(vector<Node *>::iterator EII=lllt.begin(); EII!=lllt.end() ;++EII){
+      Node *lnode=*EII;
+      Graph::nodeList &nl = g.getNodeList(lnode);
+      //cerr<<"Size:"<<lllt.size()<<"\n";
+      //cerr<<lnode->getElement()->getName()<<"\n";
+      graphListElement *N = findNodeInList(nl, w);
+      if (N){// lt.push_back(lnode);
+	
+	//Node *v=*pd;
+	//Node *v=N->element;
+	Node *v=lnode;
+	//if chords has v->w
+	
+	Edge ed(v,w, N->weight, N->randId);
+	getEdgeCode *edCd=new getEdgeCode();
+	bool hasEdge=false;
+	for(vector<Edge>::iterator CI=chords.begin(), CE=chords.end(); CI!=CE;
+	    ++CI){
+	  if(*CI==ed && CI->getWeight()==N->weight){
+	    hasEdge=true;
+	    break;
+	  }
 	}
-      }
-      if(hasEdge){
-	char str[100];
-	if(instr[ed]!=NULL && instr[ed]->getCond()==1){
-	  instr[ed]->setCond(4);
+	if(hasEdge){
+	  char str[100];
+	  if(instr[ed]!=NULL && instr[ed]->getCond()==1){
+	    instr[ed]->setCond(4);
+	  }
+	  else{
+	    edCd->setCond(5);
+	    edCd->setInc(edIncrements[ed]);
+	    instr[ed]=edCd;
+	  }
+	  
 	}
+	else if(g.getNumberOfOutgoingEdges(v)==1)
+	  ws.push_back(v);
 	else{
-	  edCd->setCond(5);
-	  edCd->setInc(edIncrements[ed]);
+	  edCd->setCond(6);
 	  instr[ed]=edCd;
 	}
-	
-      }
-      else if(g.getSuccNodes(v).size()==1)
-	ws.push_back(v);
-      else{
-	edCd->setCond(6);
-	instr[ed]=edCd;
       }
     }
   }
-
   ///// Register increment code
   for(vector<Edge>::iterator CI=chords.begin(), CE=chords.end(); CI!=CE; ++CI){
     getEdgeCode *edCd=new getEdgeCode();
@@ -310,6 +366,7 @@ static void getCodeInsertions(Graph &g, map<Edge, getEdgeCode *> &instr,
 //If a->b is a backedge
 //then incoming dummy edge is root->b
 //and outgoing dummy edge is a->exit
+//changed
 void addDummyEdges(vector<Edge > &stDummy, 
 		   vector<Edge > &exDummy, 
 		   Graph &g, vector<Edge> &be){
@@ -320,21 +377,15 @@ void addDummyEdges(vector<Edge > &stDummy,
     g.removeEdge(ed);
 
     if(!(*second==*(g.getRoot()))){
-      Edge *st=new Edge(g.getRoot(), second); 
-      
-      //check if stDummy doesn't have it already
-      if(find(stDummy.begin(), stDummy.end(), *st) == stDummy.end())
-	stDummy.push_back(*st);
+      Edge *st=new Edge(g.getRoot(), second, ed.getWeight(), ed.getRandId());
+      stDummy.push_back(*st);
       g.addEdgeForce(*st);
     }
 
     if(!(*first==*(g.getExit()))){
-      Edge *ex=new Edge(first, g.getExit());
-      
-      if (find(exDummy.begin(), exDummy.end(), *ex) == exDummy.end()) {
-	exDummy.push_back(*ex);
-	g.addEdgeForce(*ex);
-      }
+      Edge *ex=new Edge(first, g.getExit(), ed.getWeight(), ed.getRandId());
+      exDummy.push_back(*ex);
+      g.addEdgeForce(*ex);
     }
   }
 }
@@ -344,34 +395,73 @@ void printEdge(Edge ed){
   cerr<<((ed.getFirst())->getElement())
     ->getName()<<"->"<<((ed.getSecond())
 			  ->getElement())->getName()<<
-    ":"<<ed.getWeight()<<"\n";
+    ":"<<ed.getWeight()<<" rndId::"<<ed.getRandId()<<"\n";
 }
 
 //Move the incoming dummy edge code and outgoing dummy
 //edge code over to the corresponding back edge
-static void moveDummyCode(const vector<Edge> &stDummy, 
-                          const vector<Edge> &exDummy, 
-                          const vector<Edge> &be,  
-                          map<Edge, getEdgeCode *> &insertions){
-  typedef vector<Edge >::const_iterator vec_iter;
+static void moveDummyCode(vector<Edge> &stDummy, 
+                          vector<Edge> &exDummy, 
+                          vector<Edge> &be,  
+                          map<Edge, getEdgeCode *, EdgeCompare> &insertions, 
+			  Graph &g){
+  typedef vector<Edge >::iterator vec_iter;
   
-  DEBUG( //print all back, st and ex dummy
-        cerr<<"BackEdges---------------\n";
-        for(vec_iter VI=be.begin(); VI!=be.end(); ++VI)
-        printEdge(*VI);
-        cerr<<"StEdges---------------\n";
-        for(vec_iter VI=stDummy.begin(); VI!=stDummy.end(); ++VI)
-        printEdge(*VI);
-        cerr<<"ExitEdges---------------\n";
-        for(vec_iter VI=exDummy.begin(); VI!=exDummy.end(); ++VI)
-        printEdge(*VI);
-        cerr<<"------end all edges\n");
-
+  map<Edge,getEdgeCode *, EdgeCompare> temp;
+  //iterate over edges with code
   std::vector<Edge> toErase;
-  for(map<Edge,getEdgeCode *>::iterator MI=insertions.begin(), 
+  for(map<Edge,getEdgeCode *, EdgeCompare>::iterator MI=insertions.begin(), 
 	ME=insertions.end(); MI!=ME; ++MI){
     Edge ed=MI->first;
     getEdgeCode *edCd=MI->second;
+
+    ///---new code
+    //iterate over be, and check if its starts and end vertices hv code
+    for(vector<Edge>::iterator BEI=be.begin(), BEE=be.end(); BEI!=BEE; ++BEI){
+      if(ed.getRandId()==BEI->getRandId()){
+	
+	//cerr<<"Looking at edge--------\n";
+	//printEdge(ed);
+	
+	if(temp[*BEI]==0)
+	  temp[*BEI]=new getEdgeCode();
+	
+	//so ed is either in st, or ex!
+	if(ed.getFirst()==g.getRoot()){
+	  //so its in stDummy
+	  temp[*BEI]->setCdIn(edCd);
+	  toErase.push_back(ed);
+	}
+	else if(ed.getSecond()==g.getExit()){
+	  //so its in exDummy
+	  toErase.push_back(ed);
+	  temp[*BEI]->setCdOut(edCd);
+	}
+	else{
+	  assert(false && "Not found in either start or end! Rand failed?");
+	}
+      }
+    }
+  }
+  
+  for(vector<Edge >::iterator vmi=toErase.begin(), vme=toErase.end(); vmi!=vme; 
+      ++vmi){
+    insertions.erase(*vmi);
+    //cerr<<"Erasing from insertion\n";
+    //printEdge(*vmi);
+    g.removeEdgeWithWt(*vmi);
+  }
+  
+  for(map<Edge,getEdgeCode *, EdgeCompare>::iterator MI=temp.begin(), 
+      ME=temp.end(); MI!=ME; ++MI){
+    insertions[MI->first]=MI->second;
+    //cerr<<"inserting into insertion-----\n";
+    //printEdge(MI->first);
+  }
+  //cerr<<"----\n";
+  
+  /*
+    ///---new code end
     bool dummyHasIt=false;
 
     DEBUG(cerr<<"Current edge considered---\n";
@@ -381,8 +471,10 @@ static void moveDummyCode(const vector<Edge> &stDummy,
     for(vec_iter VI=stDummy.begin(), VE=stDummy.end(); VI!=VE && !dummyHasIt; 
 	++VI){
       if(*VI==ed){
-	DEBUG(cerr<<"Edge matched with stDummy\n");
-
+	//#ifdef DEBUG_PATH_PROFILES
+	cerr<<"Edge matched with stDummy\n";
+	printEdge(ed);
+	//#endif
 	dummyHasIt=true;
 	bool dummyInBe=false;
 	//dummy edge with code
@@ -392,17 +484,24 @@ static void moveDummyCode(const vector<Edge> &stDummy,
 	  Node *dm=ed.getSecond();
 	  if(*dm==*st){
 	    //so this is the back edge to use
-	    DEBUG(cerr<<"Moving to backedge\n";
-                  printEdge(backEdge));
-
+	    //#ifdef DEBUG_PATH_PROFILES
+	    cerr<<"Moving to backedge\n";
+	    printEdge(backEdge);
+	    //#endif
 	    getEdgeCode *ged=new getEdgeCode();
 	    ged->setCdIn(edCd);
-	    toErase.push_back(ed);
+	    toErase.push_back(ed);//MI);//ed);
 	    insertions[backEdge]=ged;
 	    dummyInBe=true;
 	  }
 	}
 	assert(dummyInBe);
+	//modf
+	//new
+	//vec_iter VII=VI;
+	stDummy.erase(VI);
+	break;
+	//end new
       }
     }
     if(!dummyHasIt){
@@ -412,7 +511,10 @@ static void moveDummyCode(const vector<Edge> &stDummy,
 	  ++VI){
 	if(*VI==ed){
 	  inExDummy=true;
-	  DEBUG(cerr<<"Edge matched with exDummy\n");
+
+	  //#ifdef DEBUG_PATH_PROFILES
+	  cerr<<"Edge matched with exDummy\n";
+	  //#endif
 	  bool dummyInBe2=false;
 	  //dummy edge with code
 	  for(vec_iter BE=be.begin(), BEE=be.end(); BE!=BEE && !dummyInBe2; 
@@ -422,30 +524,45 @@ static void moveDummyCode(const vector<Edge> &stDummy,
 	    Node *dm=ed.getFirst();
 	    if(*dm==*st){
 	      //so this is the back edge to use
+	      cerr<<"Moving to backedge\n";
+	      printEdge(backEdge);
 	      getEdgeCode *ged;
 	      if(insertions[backEdge]==NULL)
 		ged=new getEdgeCode();
 	      else
 		ged=insertions[backEdge];
-	      toErase.push_back(ed);
+	      toErase.push_back(ed);//MI);//ed);
 	      ged->setCdOut(edCd);
 	      insertions[backEdge]=ged;
 	      dummyInBe2=true;
 	    }
 	  }
 	  assert(dummyInBe2);
+	  //modf
+	  //vec_iter VII=VI;
+	  exDummy.erase(VI);
+	  break;
+	  //end
 	}
       }
     }
   }
 
-  DEBUG(cerr<<"size of deletions: "<<toErase.size()<<"\n");
+  */
+#ifdef DEBUG_PATH_PROFILES
+  cerr<<"size of deletions: "<<toErase.size()<<"\n";
+#endif
+  
+  /*
+  for(vector<map<Edge, getEdgeCode *>::iterator>::iterator 
+	vmi=toErase.begin(), vme=toErase.end(); vmi!=vme; ++vmi)
 
-  for(vector<Edge >::iterator vmi=toErase.begin(), vme=toErase.end(); vmi!=vme; 
-      ++vmi)
     insertions.erase(*vmi);
+  */
+#ifdef DEBUG_PATH_PROFILES
+  cerr<<"SIZE OF INSERTIONS AFTER DEL "<<insertions.size()<<"\n";
+#endif
 
-  DEBUG(cerr<<"SIZE OF INSERTIONS AFTER DEL "<<insertions.size()<<"\n");
 }
 
 //Do graph processing: to determine minimal edge increments, 
@@ -456,7 +573,11 @@ void processGraph(Graph &g,
 		  Instruction *countInst, 
 		  vector<Edge >& be, 
 		  vector<Edge >& stDummy, 
-		  vector<Edge >& exDummy){
+		  vector<Edge >& exDummy, 
+		  int numPaths){
+
+  static int MethNo=0;
+  MethNo++;
   //Given a graph: with exit->root edge, do the following in seq:
   //1. get back edges
   //2. insert dummy edges and remove back edges
@@ -502,8 +623,10 @@ void processGraph(Graph &g,
   DEBUG(printGraph(g2));
 
   Graph *t=g2.getMaxSpanningTree();
-  DEBUG(printGraph(*t));
-
+  //#ifdef DEBUG_PATH_PROFILES
+  //cerr<<"Original maxspanning tree\n";
+  //printGraph(*t);
+  //#endif
   //now edges of tree t have weights reversed
   //(negative) because the algorithm used
   //to find max spanning tree is 
@@ -527,9 +650,11 @@ void processGraph(Graph &g,
   //the edge directions of corresponding edges in the directed graph
   removeTreeEdges(g, *t);
 
-  DEBUG(cerr<<"Spanning tree---------\n";
-        printGraph(*t);
-        cerr<<"-------end spanning tree\n");
+#ifdef DEBUG_PATH_PROFILES
+  cerr<<"Final Spanning tree---------\n";
+  printGraph(*t);
+  cerr<<"-------end spanning tree\n";
+#endif
 
   //now remove the exit->root node
   //and re-add it with weight 0
@@ -551,14 +676,18 @@ void processGraph(Graph &g,
   //and assign them some values such that 
   //if we consider just this subset, it still represents
   //the path sum along any path in the graph
-  map<Edge, int> increment=getEdgeIncrements(g,*t);
-
-  DEBUG(//print edge increments for debugging
-        for(map<Edge, int>::iterator MI=increment.begin(), ME = increment.end();
-            MI != ME; ++MI) {
-          printEdge(MI->first);
-          cerr << "Increment for above:" << MI->second << "\n";
-        });
+
+  map<Edge, int, EdgeCompare> increment=getEdgeIncrements(g,*t);
+#ifdef DEBUG_PATH_PROFILES
+  //print edge increments for debugging
+  
+  for(map<Edge, int, EdgeCompare>::iterator M_I=increment.begin(), M_E=increment.end(); 
+      M_I!=M_E; ++M_I){
+    printEdge(M_I->first);
+    cerr<<"Increment for above:"<<M_I->second<<"\n";
+  }
+#endif
+
  
   //step 6: Get code insertions
   
@@ -569,40 +698,51 @@ void processGraph(Graph &g,
   vector<Edge> chords;
   getChords(chords, g, *t);
 
-  map<Edge, getEdgeCode *> codeInsertions;
+
+  //cerr<<"Graph before getCodeInsertion:\n";
+  //printGraph(g);
+  map<Edge, getEdgeCode *, EdgeCompare> codeInsertions;
   getCodeInsertions(g, codeInsertions, chords,increment);
   
-  DEBUG (//print edges with code for debugging
-         cerr<<"Code inserted in following---------------\n";
-         for(map<Edge, getEdgeCode *>::iterator cd_i=codeInsertions.begin(), 
-               cd_e=codeInsertions.end(); cd_i!=cd_e; ++cd_i){
-           printEdge(cd_i->first);
-           cerr<<cd_i->second->getCond()<<":"<<cd_i->second->getInc()<<"\n";
-         }
-         cerr<<"-----end insertions\n");
+#ifdef DEBUG_PATH_PROFILES
+  //print edges with code for debugging
+  cerr<<"Code inserted in following---------------\n";
+  for(map<Edge, getEdgeCode *>::iterator cd_i=codeInsertions.begin(), 
+	cd_e=codeInsertions.end(); cd_i!=cd_e; ++cd_i){
+    printEdge(cd_i->first);
+    cerr<<cd_i->second->getCond()<<":"<<cd_i->second->getInc()<<"\n";
+  }
+  cerr<<"-----end insertions\n";
+#endif
 
   //step 7: move code on dummy edges over to the back edges
 
   //Move the incoming dummy edge code and outgoing dummy
   //edge code over to the corresponding back edge
-  moveDummyCode(stDummy, exDummy, be, codeInsertions);
-  
-  DEBUG(//debugging info
-        cerr<<"After moving dummy code\n";
-        for(map<Edge, getEdgeCode *>::iterator cd_i=codeInsertions.begin(), 
-              cd_e=codeInsertions.end(); cd_i != cd_e; ++cd_i){
-          printEdge(cd_i->first);
-          cerr<<cd_i->second->getCond()<<":"
-              <<cd_i->second->getInc()<<"\n";
-        }
-        cerr<<"Dummy end------------\n");
+
+  moveDummyCode(stDummy, exDummy, be, codeInsertions, g);
+  //cerr<<"After dummy removals\n";
+  //printGraph(g);
+
+#ifdef DEBUG_PATH_PROFILES
+  //debugging info
+  cerr<<"After moving dummy code\n";
+  for(map<Edge, getEdgeCode *>::iterator cd_i=codeInsertions.begin(), 
+	cd_e=codeInsertions.end(); cd_i != cd_e; ++cd_i){
+    printEdge(cd_i->first);
+    cerr<<cd_i->second->getCond()<<":"
+	<<cd_i->second->getInc()<<"\n";
+  }
+  cerr<<"Dummy end------------\n";
+#endif
+
 
   //see what it looks like...
   //now insert code along edges which have codes on them
   for(map<Edge, getEdgeCode *>::iterator MI=codeInsertions.begin(), 
 	ME=codeInsertions.end(); MI!=ME; ++MI){
     Edge ed=MI->first;
-    insertBB(ed, MI->second, rInst, countInst);
+    insertBB(ed, MI->second, rInst, countInst, numPaths, MethNo);
   } 
 }
 
@@ -610,18 +750,230 @@ void processGraph(Graph &g,
 
 //print the graph (for debugging)
 void printGraph(Graph &g){
-  list<Node *> lt=g.getAllNodes();
+  vector<Node *> lt=g.getAllNodes();
   cerr<<"Graph---------------------\n";
-  for(list<Node *>::iterator LI=lt.begin(); 
+  for(vector<Node *>::iterator LI=lt.begin(); 
       LI!=lt.end(); ++LI){
     cerr<<((*LI)->getElement())->getName()<<"->";
     Graph::nodeList nl=g.getNodeList(*LI);
     for(Graph::nodeList::iterator NI=nl.begin(); 
 	NI!=nl.end(); ++NI){
       cerr<<":"<<"("<<(NI->element->getElement())
-	->getName()<<":"<<NI->element->getWeight()<<","<<NI->weight<<")";
+	->getName()<<":"<<NI->element->getWeight()<<","<<NI->weight<<","
+	  <<NI->randId<<")";
     }
     cerr<<"\n";
   }
   cerr<<"--------------------Graph\n";
 }
+
+
+/*
+////////// Getting back BBs from path number
+
+#include "llvm/Constants.h"
+#include "llvm/DerivedTypes.h"
+#include "llvm/iMemory.h"
+#include "llvm/iTerminators.h"
+#include "llvm/iOther.h"
+#include "llvm/iOperators.h"
+
+#include "llvm/Support/CFG.h"
+#include "llvm/BasicBlock.h"
+#include "llvm/Pass.h"
+
+void getPathFrmNode(Node *n, vector<BasicBlock*> &vBB, int pathNo, Graph g, 
+		    vector<Edge> &stDummy, vector<Edge> &exDummy, vector<Edge> &be,
+		    double strand){
+  Graph::nodeList nlist=g.getNodeList(n);
+  int maxCount=-9999999;
+  bool isStart=false;
+
+  if(*n==*g.getRoot())//its root: so first node of path
+    isStart=true;
+
+  double edgeRnd=0;
+  Node *nextRoot=n;
+  for(Graph::nodeList::iterator NLI=nlist.begin(), NLE=nlist.end(); NLI!=NLE;
+      ++NLI){
+    //cerr<<"Saw:"<<NLI->weight<<endl;
+    if(NLI->weight>maxCount && NLI->weight<=pathNo){
+      maxCount=NLI->weight;
+      nextRoot=NLI->element;
+      edgeRnd=NLI->randId;
+      if(isStart)
+	strand=NLI->randId;
+    }
+  }
+  //cerr<<"Max:"<<maxCount<<endl;
+
+  if(!isStart)
+    assert(strand!=-1 && "strand not assigned!"); 
+
+  assert(!(*nextRoot==*n && pathNo>0) && "No more BBs to go");
+  assert(!(*nextRoot==*g.getExit() && pathNo-maxCount!=0) && "Reached exit");
+
+  vBB.push_back(n->getElement());
+
+  if(pathNo-maxCount==0 && *nextRoot==*g.getExit()){
+
+    //look for strnd and edgeRnd now:
+    bool has1=false, has2=false;
+    //check if exit has it
+    for(vector<Edge>::iterator VI=exDummy.begin(), VE=exDummy.end(); VI!=VE; 
+	++VI){
+      if(VI->getRandId()==edgeRnd){
+	has2=true;
+	//cerr<<"has2: looking at"<<std::endl;
+	//printEdge(*VI);
+	break;
+      }
+    }
+
+    //check if start has it
+    for(vector<Edge>::iterator VI=stDummy.begin(), VE=stDummy.end(); VI!=VE; 
+	++VI){
+      if(VI->getRandId()==strand){
+	//cerr<<"has1: looking at"<<std::endl;
+        //printEdge(*VI);
+	has1=true;
+	break;
+      }
+    }
+
+    if(has1){
+      //find backedge with endpoint vBB[1]
+      for(vector<Edge>::iterator VI=be.begin(), VE=be.end(); VI!=VE; ++VI){
+	assert(vBB.size()>0 && "vector too small");
+	if( VI->getSecond()->getElement() == vBB[1] ){
+	  vBB[0]=VI->getFirst()->getElement();
+	  break;
+	}
+      }
+    }
+
+    if(has2){
+      //find backedge with startpoint vBB[vBB.size()-1]
+      for(vector<Edge>::iterator VI=be.begin(), VE=be.end(); VI!=VE; ++VI){
+	assert(vBB.size()>0 && "vector too small");
+	if( VI->getFirst()->getElement() == vBB[vBB.size()-1] ){
+	  //if(vBB[0]==VI->getFirst()->getElement())
+	  //vBB.erase(vBB.begin()+vBB.size()-1);
+	  //else
+	  vBB.push_back(VI->getSecond()->getElement());
+	  break;
+	}
+      }
+    }
+    else 
+      vBB.push_back(nextRoot->getElement());
+   
+    return;
+  }
+
+  assert(pathNo-maxCount>=0);
+
+  return getPathFrmNode(nextRoot, vBB, pathNo-maxCount, g, stDummy, 
+			exDummy, be, strand);
+}
+
+
+static Node *findBB(std::vector<Node *> &st, BasicBlock *BB){
+  for(std::vector<Node *>::iterator si=st.begin(); si!=st.end(); ++si){
+    if(((*si)->getElement())==BB){
+      return *si;
+    }
+  }
+  return NULL;
+}
+
+void getBBtrace(vector<BasicBlock *> &vBB, int pathNo, Function *M){
+
+  //step 1: create graph
+  //Transform the cfg s.t. we have just one exit node
+  
+  std::vector<Node *> nodes;
+  std::vector<Edge> edges;
+  Node *tmp;
+  Node *exitNode=0, *startNode=0;
+  
+  BasicBlock *ExitNode = 0;
+  for (Function::iterator I = M->begin(), E = M->end(); I != E; ++I) {
+    BasicBlock *BB = *I;
+    if (isa<ReturnInst>(BB->getTerminator())) {
+      ExitNode = BB;
+      break;
+    }
+  }
+  
+  assert(ExitNode!=0 && "exitnode not found");
+
+  //iterating over BBs and making graph 
+  //The nodes must be uniquesly identified:
+  //That is, no two nodes must hav same BB*
+  
+  //First enter just nodes: later enter edges
+  for(Function::iterator BB = M->begin(), BE=M->end(); BB != BE; ++BB){
+    Node *nd=new Node(*BB);
+    nodes.push_back(nd); 
+    if(*BB==ExitNode)
+      exitNode=nd;
+    if(*BB==M->front())
+      startNode=nd;
+  }
+  
+  assert(exitNode!=0 && startNode!=0 && "Start or exit not found!");
+ 
+  for (Function::iterator BB = M->begin(), BE=M->end(); BB != BE; ++BB){
+    Node *nd=findBB(nodes, *BB);
+    assert(nd && "No node for this edge!");
+
+    for(BasicBlock::succ_iterator s=succ_begin(*BB), se=succ_end(*BB); 
+	s!=se; ++s){
+      Node *nd2=findBB(nodes,*s);
+      assert(nd2 && "No node for this edge!");
+      Edge ed(nd,nd2,0);
+      edges.push_back(ed);
+    }
+  }
+  
+  static bool printed=false;
+  Graph g(nodes,edges, startNode, exitNode);
+
+  //if(!printed)
+  //printGraph(g);
+
+  if (M->getBasicBlocks().size() <= 1) return; //uninstrumented 
+
+  //step 2: getBackEdges
+  vector<Edge> be;
+  g.getBackEdges(be);
+
+  //cerr<<"BackEdges\n";
+  //for(vector<Edge>::iterator VI=be.begin(); VI!=be.end(); ++VI){
+    //printEdge(*VI);
+    //cerr<<"\n";
+  //}
+  //cerr<<"------\n";
+  //step 3: add dummy edges
+  vector<Edge> stDummy;
+  vector<Edge> exDummy;
+  addDummyEdges(stDummy, exDummy, g, be);
+
+  //cerr<<"After adding dummy edges\n";
+  //printGraph(g);
+
+  //step 4: value assgn to edges
+  int numPaths=valueAssignmentToEdges(g);
+  
+  //if(!printed){
+  //printGraph(g);
+  //printed=true;
+  //}
+
+  //step 5: now travel from root, select max(edge) < pathNo, 
+  //and go on until reach the exit
+  return getPathFrmNode(g.getRoot(), vBB, pathNo, g, stDummy, exDummy, be, -1);
+}
+
+*/