Exemplo n.º 1
0
void TempMotifCounter::GetAllStaticTriangles(TIntV& Us, TIntV& Vs, TIntV& Ws) {
  Us.Clr();
  Vs.Clr();
  Ws.Clr();
  // Get degree ordering of the graph
  int max_nodes = static_graph_->GetMxNId();
  TVec<TIntPair> degrees(max_nodes);
  degrees.PutAll(TIntPair(0, 0));
  // Set the degree of a node to be the number of nodes adjacent to the node in
  // the undirected graph.
  TIntV nodes;
  GetAllNodes(nodes);
  #pragma omp parallel for schedule(dynamic)  
  for (int node_id = 0; node_id < nodes.Len(); node_id++) {
    int src = nodes[node_id];
    TIntV nbrs;
    GetAllNeighbors(src, nbrs);
    degrees[src] = TIntPair(nbrs.Len(), src);
  }
  degrees.Sort();
  TIntV order = TIntV(max_nodes);
  #pragma omp parallel for schedule(dynamic)  
  for (int i = 0; i < order.Len(); i++) {
    order[degrees[i].Dat] = i;
  }

  // Get triangles centered at a given node where that node is the smallest in
  // the degree ordering.
  #pragma omp parallel for schedule(dynamic)  
  for (int node_id = 0; node_id < nodes.Len(); node_id++) {
    int src = nodes[node_id];
    int src_pos = order[src];
    
    // Get all neighbors who come later in the ordering
    TIntV nbrs;
    GetAllNeighbors(src, nbrs);    
    TIntV neighbors_higher;
    for (int i = 0; i < nbrs.Len(); i++) {
      int nbr = nbrs[i];
      if (order[nbr] > src_pos) { neighbors_higher.Add(nbr); }
    }

    for (int ind1 = 0; ind1 < neighbors_higher.Len(); ind1++) {
      for (int ind2 = ind1 + 1; ind2 < neighbors_higher.Len(); ind2++) {
        int dst1 = neighbors_higher[ind1];
        int dst2 = neighbors_higher[ind2];
        // Check for triangle formation
        if (static_graph_->IsEdge(dst1, dst2) || static_graph_->IsEdge(dst2, dst1)) {
          #pragma omp critical
          {
            Us.Add(src);
            Vs.Add(dst1);
            Ws.Add(dst2);
          }
        }
      }
    }
  }
}
Exemplo n.º 2
0
void grafoGDF(PUNGraph G) {
  
  std::ofstream myfile;
  std::vector<int> nodos = obtenerVerticesOrdenados(G);
  TIntV conexiones;
  
  myfile.open("facebook.gdf");
  
  myfile << "nodedef>name VARCHAR" << "\n";
  myfile << "edgedef>node1 VARCHAR,node2 VARCHAR" << "\n";
  
  for (int i = 0; i < nodos.size(); i++) {
    
    GetNodesAtHop(G, nodos[i], 1, conexiones, false);
    
    for (int j = 0; j < conexiones.EndI() - conexiones.BegI(); j++) {
      if (conexiones[j] > i) {
        myfile << i << "," << conexiones[j] << "\n";
      }
    }
    
    conexiones.Clr();
    
  }
  
  myfile.close();
  
}//cierre de grafoGDF
Exemplo n.º 3
0
/////////////////////////////////////////////////
// Trawling the web for emerging communities
// graph, left points to right
TTrawling::TTrawling(const PNGraph& Graph, const int& MinSupport) : MinSup(MinSupport) {
  TIntH ItemCntH;
  for (TNGraph::TNodeI NI = Graph->BegNI(); NI < Graph->EndNI(); NI++) {
    IAssert(NI.GetOutDeg()==0 || NI.GetInDeg()==0); // edges only point from left to right
    if (NI.GetOutDeg()==0) { continue; }
    for (int e = 0; e < NI.GetOutDeg(); e++) {
      ItemCntH.AddDat(NI.GetOutNId(e)) += 1;
    }
  }

  TIntV RightV;
  for (TNGraph::TNodeI NI = Graph->BegNI(); NI < Graph->EndNI(); NI++) {
    IAssert(NI.GetOutDeg()==0 || NI.GetInDeg()==0); // edges only point from left to right
    if (NI.GetOutDeg()==0) { continue; }
    RightV.Clr(false);
    for (int e = 0; e < NI.GetOutDeg(); e++) {
      const int itm = NI.GetOutNId(e);
      // only include items that already are above minimum support
      if (ItemCntH.GetDat(itm) >= MinSup) {
        RightV.Add(itm); }
    }
    if (! RightV.Empty()) {
      NIdSetH.AddDat(NI.GetId(), RightV);
    }
  }
  //
  for (int n = 0; n < NIdSetH.Len(); n++) {
    const TIntV& Set = NIdSetH[n];
    for (int s = 0; s < Set.Len(); s++) {
      SetNIdH.AddDat(Set[s]).Add(n);
    }
  }
}
void TUStr::GetWordUStrV(TUStrV& WordUStrV){
  // clear word vector
  WordUStrV.Clr();
  // create boundaries
  TBoolV WordBoundPV; GetWordBoundPV(WordBoundPV);
  IAssert(Len()==WordBoundPV.Len()-1);
  IAssert((WordBoundPV.Len()>0)&&(WordBoundPV.Last()));
  // traverse characters and bounds
  int UniChs=Len(); TIntV WordUniChV;
  for (int UniChN=0; UniChN<=UniChs; UniChN++){
    if ((UniChN==UniChs)||(WordBoundPV[UniChN+1])){ // finish or word-boundary
      if (UniChN<UniChs){ // if not finish
        // if last-word-char or single-alphabetic-char
        if ((!WordUniChV.Empty())||(IsAlphabetic(UniChV[UniChN]))){
          WordUniChV.Add(UniChV[UniChN]); // add char
        }
      }
      if (!WordUniChV.Empty()){ // add current word to vector
        TUStr WordUStr(WordUniChV); // construct word from char-vector
        WordUStrV.Add(WordUStr); // add word to word-vector
        WordUniChV.Clr(false); // clear char-vector
      }
    } else {
      // add character to char-vector
      WordUniChV.Add(UniChV[UniChN]);
    }
  }
}
Exemplo n.º 5
0
// burn each link independently (forward with FwdBurnProb, backward with BckBurnProb)
void TForestFire::BurnExpFire() {
  const double OldFwdBurnProb = FwdBurnProb;
  const double OldBckBurnProb = BckBurnProb;
  const int NInfect = InfectNIdV.Len();
  const TNGraph& G = *Graph;
  TIntH BurnedNIdH;               // burned nodes
  TIntV BurningNIdV = InfectNIdV; // currently burning nodes
  TIntV NewBurnedNIdV;            // nodes newly burned in current step
  bool HasAliveNbrs;              // has unburned neighbors
  int NBurned = NInfect, NDiedFire=0;
  for (int i = 0; i < InfectNIdV.Len(); i++) {
    BurnedNIdH.AddDat(InfectNIdV[i]); }
  NBurnedTmV.Clr(false);  NBurningTmV.Clr(false);  NewBurnedTmV.Clr(false);
  for (int time = 0; ; time++) {
    NewBurnedNIdV.Clr(false);
    // for each burning node
    for (int node = 0; node < BurningNIdV.Len(); node++) {
      const int& BurningNId = BurningNIdV[node];
      const TNGraph::TNodeI Node = G.GetNI(BurningNId);
      HasAliveNbrs = false;
      NDiedFire = 0;
      // burn forward links  (out-links)
      for (int e = 0; e < Node.GetOutDeg(); e++) {
        const int OutNId = Node.GetOutNId(e);
        if (! BurnedNIdH.IsKey(OutNId)) { // not yet burned
          HasAliveNbrs = true;
          if (Rnd.GetUniDev() < FwdBurnProb) {
            BurnedNIdH.AddDat(OutNId);  NewBurnedNIdV.Add(OutNId);  NBurned++; }
        }
      }
      // burn backward links (in-links)
      if (BckBurnProb > 0.0) {
        for (int e = 0; e < Node.GetInDeg(); e++) {
          const int InNId = Node.GetInNId(e);
          if (! BurnedNIdH.IsKey(InNId)) { // not yet burned
            HasAliveNbrs = true;
            if (Rnd.GetUniDev() < BckBurnProb) {
              BurnedNIdH.AddDat(InNId);  NewBurnedNIdV.Add(InNId);  NBurned++; }
          }
        }
      }
      if (! HasAliveNbrs) { NDiedFire++; }
    }
    NBurnedTmV.Add(NBurned);
    NBurningTmV.Add(BurningNIdV.Len() - NDiedFire);
    NewBurnedTmV.Add(NewBurnedNIdV.Len());
    //BurningNIdV.AddV(NewBurnedNIdV);   // node is burning eternally
    BurningNIdV.Swap(NewBurnedNIdV);    // node is burning just 1 time step
    if (BurningNIdV.Empty()) break;
    FwdBurnProb = FwdBurnProb * ProbDecay;
    BckBurnProb = BckBurnProb * ProbDecay;
  }
  BurnedNIdV.Gen(BurnedNIdH.Len(), 0);
  for (int i = 0; i < BurnedNIdH.Len(); i++) {
    BurnedNIdV.Add(BurnedNIdH.GetKey(i)); }
  FwdBurnProb = OldFwdBurnProb;
  BckBurnProb = OldBckBurnProb;
}
Exemplo n.º 6
0
/////////////////////////////////////////////////
// DMoz-Base
void TDMozBs::GetCatIdV(const TStrV& CatNmV, TIntV& CatIdV) const {
  CatIdV.Clr();
  for (int CatNmN=0; CatNmN<CatNmV.Len(); CatNmN++){
    int CatId=GetCatId(CatNmV[CatNmN]);
    if (CatId==-1){
      printf("\nWarning: Invalid Category Name ('%s')\n.", CatNmV[CatNmN].CStr());}
    CatIdV.Add(CatId);
  }
}
Exemplo n.º 7
0
// and words to StrH and get a vector of word ids
void TStrUtil::GetAddWIdV(TStrHash<TInt>& StrH, const char *CStr, TIntV& WIdV) {
  TChA ChA(CStr);
  TVec<char *> WrdV;
  TInt WId;
  TStrUtil::SplitWords(ChA, WrdV);
  WIdV.Clr(false);
  for (int w = 0; w < WrdV.Len(); w++) {
    WIdV.Add(StrH.AddDatId(WrdV[w]));
  }
}
Exemplo n.º 8
0
Arquivo: cmty.cpp Projeto: pikma/Snap
// GIRVAN-NEWMAN algorithm
//	1. The betweenness of all existing edges in the network is calculated first.
//	2. The edge with the highest betweenness is removed.
//	3. The betweenness of all edges affected by the removal is recalculated.
//	4. Steps 2 and 3 are repeated until no edges remain.
//  Girvan M. and Newman M. E. J., Community structure in social and biological networks, Proc. Natl. Acad. Sci. USA 99, 7821–7826 (2002)
// Keep removing edges from Graph until one of the connected components of Graph splits into two.
void CmtyGirvanNewmanStep(PUNGraph& Graph, TIntV& Cmty1, TIntV& Cmty2) {
  TIntPrFltH BtwEH;
  TBreathFS<PUNGraph> BFS(Graph);
  Cmty1.Clr(false);  Cmty2.Clr(false);
  while (true) {
    TSnap::GetBetweennessCentr(Graph, BtwEH);
    BtwEH.SortByDat(false);
    if (BtwEH.Empty()) { return; }
    const int NId1 = BtwEH.GetKey(0).Val1;
    const int NId2 = BtwEH.GetKey(0).Val2;
    Graph->DelEdge(NId1, NId2);
    BFS.DoBfs(NId1, true, false, NId2, TInt::Mx);
    if (BFS.GetHops(NId1, NId2) == -1) { // two components
      TSnap::GetNodeWcc(Graph, NId1, Cmty1);
      TSnap::GetNodeWcc(Graph, NId2, Cmty2);
      return;
    }
  }
}
Exemplo n.º 9
0
void TGUtil::MakeExpBins(const TIntV& YValV, TIntV& ExpYValV, const double& BinFactor) {
  ExpYValV.Clr(true);
  int prevI=0;
  for (int i = 0; i < YValV.Len(); ) {
    ExpYValV.Add(YValV[i]);
    i = int(i*BinFactor);
    if (i==prevI) { i++; }
    prevI = i;
  }
}
Exemplo n.º 10
0
/////////////////////////////////////////////////
// WordNet-SynSet
void TWnSynSet::GetDstSynSetPV(
 const TWnRelType& RelType, TIntV& DstSynSetPV) const {
  DstSynSetPV.Clr();
  for (int RelN=0; RelN<RelIntIntTrV.Len(); RelN++){
    TWnRelType CurRelType=TWnRelType(RelIntIntTrV[RelN].Val1.Val);
    if (RelType==CurRelType){
      int DstSynSetP=RelIntIntTrV[RelN].Val3;
      DstSynSetPV.Add(DstSynSetP);
    }
  }
}
Exemplo n.º 11
0
void TStrUtil::GetWIdV(const TStrHash<TInt>& StrH, const char *CStr, TIntV& WIdV) {
  const int NotWId = -1;
  TChA ChA(CStr);
  TVec<char *> WrdV;
  TInt WId;
  TStrUtil::SplitWords(ChA, WrdV);
  WIdV.Clr(false);
  for (int w = 0; w < WrdV.Len(); w++) {
    if (StrH.IsKeyGetDat(WrdV[w], WId)) { WIdV.Add(WId); }
    else { WIdV.Add(NotWId); }
  }
}
Exemplo n.º 12
0
void TTrawling::JoinItems(const TIntV& Item1, const TIntV& Item2, TIntV& JoinItem) {
  int i = 0, j = 0;
  JoinItem.Clr(false);
  const int MaxL = Item1.Len()+1;
  while (i < Item1.Len()) {
    while (j < Item2.Len() && Item2[j] < Item1[i]) {
      JoinItem.Add(Item2[j]); j++; }
    JoinItem.Add(Item1[i]);
    if (j < Item2.Len() && Item1[i] == Item2[j]) { j++; }
    i++;
    if (JoinItem.Len() > MaxL) { JoinItem.Clr(false); return; }
  }
  while (j < Item2.Len()) {
    JoinItem.Add(Item2[j]); j++;
  }
  /*if (JoinItem.Len() > 3) {
    Dump(Item1, "\n1:");
    Dump(Item2, "2:");
    Dump(JoinItem, "J:");
  }*/
  IAssert(JoinItem.IsSorted());
}
Exemplo n.º 13
0
void TEvalScore::Parse(const TStr& Str, TIntV& WIdV) {
    TStrV TokenV; Tokenize(Str, TokenV); WIdV.Clr();
    for (int WdN = 0; WdN < TokenV.Len(); WdN++) {
        // get the word string
        TStr WdStr = TokenV[WdN];
        // get id of the word
        int WId = WordH.GetKeyId(WdStr);
        // word does not exist yet, add it to the hash table
        if (WId == -1) { WId = WordH.AddKey(WdStr); }
        // add word to the parsed sentence
        WIdV.Add(WId);
    }
}
Exemplo n.º 14
0
void grafoJSON(PUNGraph G) {
  
  std::ofstream myfile;
  std::vector<int> nodos = obtenerVerticesOrdenados(G);
  TIntV conexiones;
  
  myfile.open("facebook.json");
  
  
  myfile << "{ \"graph\": {" << "\n";
  myfile << "\"nodes\": [" << "\n";
  
  for (int i = 0; i < nodos.size(); i++) {
    myfile << "{ \"id\": \"" << nodos[i] << "\" }";
    if (i == nodos.size()-1) {
      myfile << " ]," << "\n";
    }
    else {
      myfile << "," << "\n";
    }
  }
  
  myfile << "\"edges\": [\n";
  
  for (int i = 0; i < nodos.size(); i++) {
    
    GetNodesAtHop(G, nodos[i], 1, conexiones, false);
    
    for (int j = 0; j < conexiones.EndI() - conexiones.BegI(); j++) {
      if (conexiones[j] > i) {
        myfile << "{ \"source\": \"" << i << "\", \"target\": \"" << conexiones[j] << "\" }";
        if (i == nodos.size()-1) {
          myfile << " ]" << "\n";
        }
        else {
          myfile << "," << "\n";
        }
      }
    }
    
    conexiones.Clr();
    
  }
  
  myfile << "} }";
  
  myfile.close();
  
  
}
Exemplo n.º 15
0
void TBlobBs::GenBlockLenV(TIntV& BlockLenV){
  BlockLenV.Clr();
  for (int P2Exp=0; P2Exp<TB4Def::MxP2Exp; P2Exp++){
    BlockLenV.Add(TInt(TB4Def::GetP2(P2Exp)));}
  EAssert(int(BlockLenV.Last())<2000000000);

  {for (int Len=10; Len<100; Len+=10){BlockLenV.Add(Len);}}
  {for (int Len=100; Len<10000; Len+=100){BlockLenV.Add(Len);}}
  {for (int Len=10000; Len<100000; Len+=1000){BlockLenV.Add(Len);}}
  {for (int Len=100000; Len<1000000; Len+=25000){BlockLenV.Add(Len);}}
  {for (int Len=1000000; Len<10000000; Len+=1000000){BlockLenV.Add(Len);}}
  {for (int Len=10000000; Len<100000000; Len+=10000000){BlockLenV.Add(Len);}}

  BlockLenV.Sort();
}
Exemplo n.º 16
0
Arquivo: bowfl.cpp Projeto: Accio/snap
void TBowFl::LoadLnDocTxt(PBowDocBs BowDocBs, const TStr& LnDocFNm,
 TIntV& NewDIdV, const bool& NamedP, const int& MxDocs, const bool& SaveDocP) {
  // open line-doc file
  NewDIdV.Clr(); TFIn FIn(LnDocFNm); char Ch=' '; int Docs=0;
  while (!FIn.Eof()){
    Docs++; if ((MxDocs!=-1)&&(Docs>=MxDocs)){break;}
    printf("%d\r", Docs);
    // document name
    TChA DocNm;
    Ch=FIn.GetCh();
    if (NamedP){
      while ((!FIn.Eof())&&(Ch!='\r')&&(Ch!='\n')&&(Ch!=' ')){
        DocNm+=Ch; Ch=FIn.GetCh();}
      DocNm.Trunc();
      if (DocNm.Empty()){Docs--; continue;}
    } else {
        DocNm = TInt::GetStr(Docs);
    }
    // categories
    TStrV CatNmV;
    forever {
      while ((!FIn.Eof())&&(Ch==' ')){Ch=FIn.GetCh();}
      if (Ch=='!'){
        if (!FIn.Eof()){Ch=FIn.GetCh();}
        TChA CatNm;
        while ((!FIn.Eof())&&(Ch!='\r')&&(Ch!='\n')&&(Ch!=' ')){
          CatNm+=Ch; Ch=FIn.GetCh();}
        if (!CatNm.Empty()){CatNmV.Add(CatNm);}
      } else {
        break;
      }
    }
    // document text
    TChA DocChA;
    while ((!FIn.Eof())&&(Ch!='\r')&&(Ch!='\n')){
      DocChA+=Ch; Ch=FIn.GetCh();}
    // skip empty documents (empty lines)
    if (DocNm.Empty()&&DocChA.Empty()){
      continue;}
    // add document to document-base
    NewDIdV.Add(BowDocBs->AddHtmlDoc(DocNm, CatNmV, DocChA, SaveDocP));
  }
  // return document-base
  BowDocBs->AssertOk();
  printf("\n");
}
Exemplo n.º 17
0
void TUStr::GetWordUStrLst(TLst<TUStr>& WordUStrV, TLst<TBool> &TerminalV){ //TBoolV& TerminalV){
  
// clear word vector
  WordUStrV.Clr();
  // create boundaries
  TBoolV WordBoundPV; GetWordBoundPV(WordBoundPV);
  //TerminalV.Reserve(WordBoundPV.Len());
  IAssert(Len()==WordBoundPV.Len()-1);
  IAssert((WordBoundPV.Len()>0)&&(WordBoundPV.Last()));
  // traverse characters and bounds
  int UniChs=Len(); TIntV WordUniChV;
  bool terminal = false;

  for (int UniChN=0; UniChN<=UniChs; UniChN++){
    if ((UniChN==UniChs)||(WordBoundPV[UniChN+1])){ // finish or word-boundary
      if (UniChN<UniChs){ // if not finish
        // if last-word-char or single-alphabetic-char
        if ((!WordUniChV.Empty())||(IsAlphabetic(UniChV[UniChN]))){
          WordUniChV.Add(UniChV[UniChN]); // add char
        }
		else{
			if(WordUStrV.Len() > 0){
				if(IsTerminal(UniChV[UniChN])) terminal = true;
			}
		}
      }
      if (!WordUniChV.Empty()){ // add current word to vector
        TUStr WordUStr(WordUniChV); // construct word from char-vector
		WordUStrV.AddBack(WordUStr); // add word to word-vector
        WordUniChV.Clr(false); // clear char-vector
		if(terminal){ TerminalV.AddBack(true);}
		else{ TerminalV.AddBack(false);}
		terminal = false;
      }
    } else {
      // add character to char-vector
      WordUniChV.Add(UniChV[UniChN]);
    }
  }
}
Exemplo n.º 18
0
Arquivo: bowfl.cpp Projeto: Accio/snap
/////////////////////////////////////////////////
// BagOfWords-Files
void TBowFl::LoadHtmlTxt(
 PBowDocBs BowDocBs, const TStr& FPath, TIntV& NewDIdV,
 const bool& RecurseDirP, const int& MxDocs,
 const bool& SaveDocP, const PNotify& Notify) {
  // prepare file-directory traversal
  TStr LcNrFPath=TStr::GetNrFPath(FPath).GetLc();
  Notify->OnStatus("Creating Bow from file-path " + FPath + " ...");
  TFFile FFile(FPath, "", RecurseDirP);
  // traverse files
  TStr FNm; int Docs=0; NewDIdV.Clr();
  while (FFile.Next(FNm)){
    Docs++; if ((MxDocs!=-1)&&(Docs>MxDocs)){break;}
    Notify->OnStatus(TStr::Fmt("%d\r", Docs));
    // prepare document-name
    if (TFile::Exists(FNm)) { //B:
        TStr DocNm=FNm.GetLc();
        if (DocNm.IsPrefix(LcNrFPath)){
          DocNm=DocNm.GetSubStr(LcNrFPath.Len(), DocNm.Len()-1);}
        // categories
        TStrV CatNmV; TStr CatNm;
        if (DocNm.IsChIn('/')){
          TStr Str; DocNm.SplitOnCh(CatNm, '/', Str);
        } else if (DocNm.IsChIn('\\')){
          TStr Str; DocNm.SplitOnCh(CatNm, '\\', Str);
        }
        if (!CatNm.Empty()){
          CatNmV.Add(CatNm);}
        // load document-content
        TStr DocStr=TStr::LoadTxt(FNm);
        // add document to bow
        NewDIdV.Add(BowDocBs->AddHtmlDoc(DocNm, CatNmV, DocStr, SaveDocP));
    }
  }
  Notify->OnStatus(TStr::Fmt("%d", Docs));
  // return results
  Notify->OnStatus("Done.");
  BowDocBs->AssertOk();
}
Exemplo n.º 19
0
void grafoGEXF(PUNGraph G) {
  
  std::ofstream myfile;
  std::vector<int> nodos = obtenerVerticesOrdenados(G);
  long int aristas = 0;
  TIntV conexiones;
  
  myfile.open("facebook.gexf");
  
  myfile << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>" << "\n";
  myfile << "<gexf xmlns=\"http://www.gexf.net/1.2draft\" version=\"1.2\">" << "\n";
  myfile << "\t<graph mode=\"static\" defaultedgetype=\"undirected\">" << "\n";
  myfile << "\t\t<edges>" << std::endl;
  
  for (int i = 0; i < nodos.size(); i++) {
    
    GetNodesAtHop(G, nodos[i], 1, conexiones, false);
    
    for (int j = 0; j < conexiones.EndI() - conexiones.BegI(); j++) {
      if (conexiones[j] > i) {
        myfile << "\t\t\t<edge id=\"" << aristas << "\" source=\"" << i << "\" target=\"" << conexiones[j] << "\"/>" << "\n";
        aristas++;
      }
    }
    
    conexiones.Clr();
    
  }
  
  myfile << "\t\t</edges>" << "\n";
  myfile << "\t</graph>" << "\n";
  myfile << "</gexf>" << "\n";
  
  myfile.close();
  
}//cierre de grafoGDF
Exemplo n.º 20
0
void grafoML(PUNGraph G) {
  
  std::ofstream myfile;
  std::vector<int> nodos = obtenerVerticesOrdenados(G);
  long int aristas = 1;
  TIntV conexiones;
  
  myfile.open("facebook.graphml");
  
  myfile << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>" << "\n";
  myfile << "<graphml xmlns=\"http://graphml.graphdrawing.org/xmlns\"" << "\n";
  myfile << "\txmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\"" << "\n";
  myfile << "\txsi:schemaLocation=\"http://graphml.graphdrawing.org/xmlns/1.0/graphml.xsd\">" << "\n";
  myfile << "  <graph id=\"G\" edgedefault=\"undirected\">" << "\n";
  
  for (int i = 0; i < nodos.size(); i++) {
    
    GetNodesAtHop(G, nodos[i], 1, conexiones, false);
    
    for (int j = 0; j < conexiones.EndI() - conexiones.BegI(); j++) {
      if (conexiones[j] > i) {
        myfile << "  \t<edge id=\"e" << aristas << "\" source=\"" << i << "\" target=\"" << conexiones[j] << "\"/>" << "\n";
        aristas++;
      }
    }
    
    conexiones.Clr();
    
  }
  
  myfile << "  </graph>" << "\n";
  myfile << "</graphml>" << "\n";
  
  myfile.close();
  
}//cierre de grafoGDF
Exemplo n.º 21
0
PNEANet KNNJaccardParallel(PNGraph Graph,int K) {
  PNEANet KNN = TNEANet::New();
  TIntV NIdV;
  Graph->GetNIdV (NIdV);
  int size = NIdV.Len();
  for (int ind = 0; ind < size; ind++) {
    KNN->AddNode(NIdV[ind]);
  }
  KNN->AddFltAttrE("sim");
  TVec<TVec<TPair<TFlt, TInt>, int >, int > TopKList;
  TVec<TVec<TPair<TFlt, TInt>, int >, int > ThTopK; // for each thread
  TIntV NodeList;
  TIntV ThNodeList;// for each thread
  int NumThreads = omp_get_max_threads();
  omp_set_num_threads(NumThreads);
  #pragma omp parallel private(ThNodeList, ThTopK)
  {
    TIntV* Neighbors_old = new TIntV();
    TIntV* Neighbors = new TIntV();
    TIntV* temp;

    #pragma omp for schedule(dynamic,1000)
    for (int ind = 0; ind < size; ind++) {
      TNGraph::TNodeI NI = Graph->GetNI(NIdV[ind]);
      if (NI.GetInDeg() > 0) {
        continue;
      }
      if (NI.GetOutDeg() == 0) {
        continue;
      }

      TVec<TPair<TFlt, TInt>, int > TopK;
      for (int i = 0; i < K; i++) {
          TopK.Add(TPair<TFlt,TInt>(0.0, -1));
      }

      Neighbors->Clr(false);
      Neighbors_old->Clr(false);

      for (int i = 0; i < NI.GetOutDeg(); i++) {
        TNGraph::TNodeI Inst_NI = Graph->GetNI(NI.GetOutNId(i));
        MergeNbrs(Neighbors, Neighbors_old, Inst_NI);

        temp = Neighbors_old;
        temp->Clr(false);
        Neighbors_old = Neighbors;
        Neighbors = temp;
      }

      // Swap neighbors and Neighbors_old

      temp = Neighbors_old;
      Neighbors_old = Neighbors;
      Neighbors = temp;
      for(int j = 0; j< Neighbors->Len(); j++) {

        TNGraph::TNodeI Auth_NI = Graph->GetNI((*Neighbors)[j]);

        float similarity = JaccardSim(NI, Auth_NI);
        if (TopK[K-1].GetVal1() < similarity) {
          int index = 0;
          for (int i = K-2; i >= 0; i--)
            if (TopK[i].GetVal1() < similarity) {
              TopK.SetVal(i+1, TopK[i]);
            } else {
              index = i+1;
              break;
            }
          TopK.SetVal(index, TPair<TFlt, TInt>(similarity, (*Neighbors)[j]));
        }
      }

      ThTopK.Add(TopK);
      ThNodeList.Add(NIdV[ind]);

//    if (ct%10000 == 0)
//    	cout<<ct<<" avg neighbor degree = "<<sum_neighbors*1.0/ct<<" "<<currentDateTime()<<endl;

    }
    #pragma omp critical
    {
      for (int j = 0; j < ThTopK.Len(); j++) {
        TopKList.Add(ThTopK[j]);
        NodeList.Add(ThNodeList[j]);
      }
    }
	}

  int size2 = NodeList.Len();
  for (int i= 0; i < size2 ; i++) {

    for (int j = 0; j < K; j++) {
      if (TopKList[i][j].GetVal2() <= -1) {
        break;
      }
      int EId = KNN->AddEdge(NodeList[i], TopKList[i][j].GetVal2());
      KNN->AddFltAttrDatE(EId, TopKList[i][j].GetVal1(), "sim");
    }
  }
  return KNN;
}
Exemplo n.º 22
0
PNEANet KNNJaccard(PNGraph Graph, int K) {
  PNEANet KNN = TNEANet::New();

  int sum_neighbors = 0;
  int ct;
  int end;
  end = Graph->GetNodes();
  TIntV* Neighbors_old = new TIntV();
  TIntV* Neighbors = new TIntV();
  TIntV* temp;
  TIntV NIdV;
  Graph->GetNIdV (NIdV);
  int size = NIdV.Len();
  for (int ind = 0; ind < size; ind++) {
    KNN->AddNode(NIdV[ind]);
  }
  KNN->AddFltAttrE("sim");

  for (int ind = 0; ind < size; ind++) {
    TNGraph::TNodeI NI = Graph->GetNI(NIdV[ind]);
    if (NI.GetInDeg() > 0) {
      continue;
    }
    if (NI.GetOutDeg() == 0) {
      continue;
    }
    ct ++;

    TVec<TPair<TFlt, TInt> > TopK;
    for (int i = 0; i < K; i++) {
      TopK.Add(TPair<TFlt,TInt>(0.0, -1));
    }

    Neighbors->Clr(false);
    Neighbors_old->Clr(false);

    for (int i = 0; i < NI.GetOutDeg(); i++) {
      TNGraph::TNodeI Inst_NI = Graph->GetNI(NI.GetOutNId(i));
      MergeNbrs(Neighbors, Neighbors_old, Inst_NI);

      temp = Neighbors_old;
      temp->Clr(false);
      Neighbors_old = Neighbors;
      Neighbors = temp;
    }
    int num = Neighbors_old->Len();
    sum_neighbors += num;

    //Swap neighbors and Neighbors_old

    temp = Neighbors_old;
    Neighbors_old = Neighbors;
    Neighbors = temp;
    for (int j = 0; j< Neighbors->Len(); j++) {

      TNGraph::TNodeI Auth_NI = Graph->GetNI((*Neighbors)[j]);

      float similarity = JaccardSim(NI, Auth_NI);
      if (TopK[K-1].GetVal1() < similarity) {
        int index = 0;
        for (int i = K-2; i >= 0; i--)
          if (TopK[i].GetVal1() < similarity) {
            TopK.SetVal(i+1, TopK[i]);
          } else {
            index = i+1;
            break;
          }
        TopK.SetVal(index, TPair<TFlt, TInt>(similarity, (*Neighbors)[j]));
      }
    }

    for (int i = 0; i < K; i++) {
      int EId = KNN->AddEdge(NI.GetId(), TopK[i].GetVal2());
      KNN->AddFltAttrDatE(EId, TopK[i].GetVal1(), "sim");
    }

//    if (ct%10000 == 0)
//    	cout<<ct<<" avg neighbor degree = "<<sum_neighbors*1.0/ct<<" "<<currentDateTime()<<endl;

  }

  return KNN;
}
Exemplo n.º 23
0
// Node selects N~geometric(1.0-FwdBurnProb)-1 out-links and burns them. Then same for in-links.
// geometirc(p) has mean 1/(p), so for given FwdBurnProb, we burn 1/(1-FwdBurnProb)
void TForestFire::BurnGeoFire() {
	const double OldFwdBurnProb = FwdBurnProb;
	const double OldBckBurnProb = BckBurnProb;
	const int& NInfect = InfectNIdV.Len();
	const TNGraph& G = *Graph;
	TIntH BurnedNIdH;               // burned nodes
	TIntV BurningNIdV = InfectNIdV; // currently burning nodes
	TIntV NewBurnedNIdV;            // nodes newly burned in current step
	bool HasAliveInNbrs, HasAliveOutNbrs; // has unburned neighbors
	TIntV AliveNIdV;                // NIds of alive neighbors
	int NBurned = NInfect, time;
	for (int i = 0; i < InfectNIdV.Len(); i++) {
		BurnedNIdH.AddDat(InfectNIdV[i]);
	}
	NBurnedTmV.Clr(false);  NBurningTmV.Clr(false);  NewBurnedTmV.Clr(false);
	for (time = 0;; time++) {
		NewBurnedNIdV.Clr(false);
		for (int node = 0; node < BurningNIdV.Len(); node++) {
			const int& BurningNId = BurningNIdV[node];
			const TNGraph::TNodeI Node = G.GetNI(BurningNId);
			// find unburned links
			HasAliveOutNbrs = false;
			AliveNIdV.Clr(false); // unburned links
			for (int e = 0; e < Node.GetOutDeg(); e++) {
				const int OutNId = Node.GetOutNId(e);
				if (!BurnedNIdH.IsKey(OutNId)) {
					HasAliveOutNbrs = true;  AliveNIdV.Add(OutNId);
				}
			}
			// number of links to burn (geometric coin). Can also burn 0 links
			const int BurnNFwdLinks = Rnd.GetGeoDev(1.0 - FwdBurnProb) - 1;
			if (HasAliveOutNbrs && BurnNFwdLinks > 0) {
				AliveNIdV.Shuffle(Rnd);
				for (int i = 0; i < TMath::Mn(BurnNFwdLinks, AliveNIdV.Len()); i++) {
					BurnedNIdH.AddDat(AliveNIdV[i]);
					NewBurnedNIdV.Add(AliveNIdV[i]);  NBurned++;
				}
			}
			// backward links
			if (BckBurnProb > 0.0) {
				// find unburned links
				HasAliveInNbrs = false;
				AliveNIdV.Clr(false);
				for (int e = 0; e < Node.GetInDeg(); e++) {
					const int InNId = Node.GetInNId(e);
					if (!BurnedNIdH.IsKey(InNId)) {
						HasAliveInNbrs = true;  AliveNIdV.Add(InNId);
					}
				}
				// number of links to burn (geometric coin). Can also burn 0 links
				const int BurnNBckLinks = Rnd.GetGeoDev(1.0 - BckBurnProb) - 1;
				if (HasAliveInNbrs && BurnNBckLinks > 0) {
					AliveNIdV.Shuffle(Rnd);
					for (int i = 0; i < TMath::Mn(BurnNBckLinks, AliveNIdV.Len()); i++) {
						BurnedNIdH.AddDat(AliveNIdV[i]);
						NewBurnedNIdV.Add(AliveNIdV[i]);  NBurned++;
					}
				}
			}
		}
		NBurnedTmV.Add(NBurned);  NBurningTmV.Add(BurningNIdV.Len());  NewBurnedTmV.Add(NewBurnedNIdV.Len());
		// BurningNIdV.AddV(NewBurnedNIdV);   // node is burning eternally
		BurningNIdV.Swap(NewBurnedNIdV);   // node is burning just 1 time step
		if (BurningNIdV.Empty()) break;
		FwdBurnProb = FwdBurnProb * ProbDecay;
		BckBurnProb = BckBurnProb * ProbDecay;
	}
	BurnedNIdV.Gen(BurnedNIdH.Len(), 0);
	for (int i = 0; i < BurnedNIdH.Len(); i++) {
		BurnedNIdV.Add(BurnedNIdH.GetKey(i));
	}
	FwdBurnProb = OldFwdBurnProb;
	BckBurnProb = OldBckBurnProb;
}