예제 #1
0
// Generate TNodeEdgeNet
TPt <TNodeEdgeNet<TInt, TInt> > GetTestTNodeEdgeNet() {
  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int n;

  Net = TNodeEdgeNet<TInt, TInt>::New();

  for (int i = 0; i < 20; i++) {
    Net->AddNode(i);
  }

  for (int i = 0; i < 20; i++) {
    Net->AddEdge(i,(i+1) % 20);
    Net->AddEdge(i,(i+2) % 20);
    Net->AddEdge(i,(i+3) % 20);
    Net->AddEdge(i,(i+1) % 20);
    Net->AddEdge(i,(i+2) % 20);
    Net->AddEdge(i,(i+3) % 20);
  }

  n = 0;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Net->SetEDat(EI.GetId(),n);
    n = (n+1) % 4;
  }

  return Net;
}
예제 #2
0
void MakeSignEpinions() {
  TSsParser Ss("/u/ana/data/EpinionRatings/user_rating.txt", ssfTabSep);
  //PSignNet Net = TSignNet::New();
  TPt<TNodeEDatNet<TInt, TInt> >  Net = TNodeEDatNet<TInt, TInt>::New();
  TStrHash<TInt> StrSet(Mega(1), true);
      
  while (Ss.Next()) {
    if ( ((TStr)Ss[0]).IsPrefix("#")  )
      continue;
    const int SrcNId = StrSet.AddKey(Ss[0]);
    const int DstNId = StrSet.AddKey(Ss[1]);
    if (! Net->IsNode(SrcNId)) { Net->AddNode(SrcNId); }
    if (! Net->IsNode(DstNId)) { Net->AddNode(DstNId); }
    const int Sign = ((TStr)Ss[2]).GetInt();
    Net->AddEdge(SrcNId, DstNId, Sign);
  }
    
  //    PrintGraphStatTable(Graph, OutFNm, Desc);
  TStr OutFNm = "soc-sign-epinions-user-ratings";
  TStr Desc = "Epinions signed social network";

  // copied from gio.h - line 111
  FILE *F = fopen(OutFNm.CStr(), "wt");
  fprintf(F, "# Directed graph: %s\n", OutFNm.CStr());
  if (! Desc.Empty()) 
    fprintf(F, "# %s\n", (Desc).CStr());
  fprintf(F, "# Nodes: %d Edges: %d\n", Net->GetNodes(), Net->GetEdges());
  fprintf(F, "# FromNodeId\tToNodeId\tSign\n"); 
  for (TNodeEDatNet<TInt,TInt>::TEdgeI ei = Net->BegEI(); ei < Net->EndEI(); ei++) {
      fprintf(F, "%d\t%d\t%d\n", ei.GetSrcNId(), ei.GetDstNId(), ei()());
  }
  fclose(F);
  
  PrintGraphStatTable(Net, OutFNm, Desc);
}
예제 #3
0
//! Given pGraph with data about edge weights, computes the distance of the shortest paths from sourceNode
//! and returns the result in the nodes of pDAGGraph.
//! Updates the edges if bUpdateEdges is set to true. Default is false. In that case only the node data is updated with the shortest distance to sourceNode.
//! @note Requires initial values for the nodes of pDAGGraph (edges are not needed)
void Dijkstra(const TPt<TNodeEDatNet<TFlt, TFlt>>& pGraph, int sourceNode, double dThreshold, TPt<TNodeEDatNet<TFlt, TFlt>>& pDAGGraph, bool bUpdateEdges = false)
{
	double logThreshold = log(dThreshold);
	if(dThreshold==0)
		logThreshold=-DBL_MAX;

	// List of visited nodes
	std::map<int, bool> visitedNodes;
	// Stores the edge vertices to build the final DAG
	std::map<int, int> mapPrevious;
	std::priority_queue<std::pair<int,double>, std::vector<std::pair<int,double>>, Order> nodesToVisit;

	// Distance from source node to itself is 0
	pDAGGraph->SetNDat(sourceNode, 0);
	nodesToVisit.push(std::make_pair(sourceNode,0));

	// Beginning of the loop of Dijkstra algorithm

	while(!nodesToVisit.empty())
	{
		// Find the vertex in queue with the smallest distance and remove it
		int iParentID = -1;
		while (!nodesToVisit.empty() && visitedNodes[iParentID = nodesToVisit.top().first])
			nodesToVisit.pop();
		if (iParentID == -1) break;

		// mark the vertex with the shortest distance
		visitedNodes[iParentID]=true;

		auto parent = pGraph->GetNI(iParentID);
		int numChildren = parent.GetOutDeg();
		for(int i = 0; i < numChildren; ++i)
		{
			int iChildID = parent.GetOutNId(i);
			// Accumulate the shortest distance from source
			double alt = pDAGGraph->GetNDat(iParentID) - log(parent.GetOutEDat(i).Val);
			if(alt >= logThreshold)
			{
				auto it = visitedNodes.find(iChildID);
				if (alt < pDAGGraph->GetNDat(iChildID) && it->second == false)
				{
					//1. update distance
					//2. update the predecessor
					//3. push new shortest rank of chidren nodes
					pDAGGraph->SetNDat(iChildID, alt);
					mapPrevious[iChildID]= iParentID;
					nodesToVisit.push(std::make_pair(iChildID,alt));
				}
			}
		}

	}

	if(bUpdateEdges)
		for(auto it=mapPrevious.begin(); it!= mapPrevious.end(); ++it)
		{
			pDAGGraph->AddEdge(it->second, it->first);
			pDAGGraph->SetEDat(it->second,it->first, pGraph->GetEDat(it->second,it->first));
		}
}
예제 #4
0
// Test update node data
TEST(TNodeEdgeNet, UpdateNodeData) {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;

  Net = TNodeEdgeNet<TInt, TInt>::New();
  EXPECT_EQ(1,Net->Empty());

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i,i+5);
  }
  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(NNodes,Net->GetNodes());

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    n = Net->AddEdge(x, y);
    NCount--;
  }

  EXPECT_EQ(NEdges,Net->GetEdges());

  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(1,Net->IsOk());

  for (i = 0; i < NNodes; i++) {
    EXPECT_EQ(1,Net->IsNode(i));
  }

  EXPECT_EQ(0,Net->IsNode(NNodes));
  EXPECT_EQ(0,Net->IsNode(NNodes+1));
  EXPECT_EQ(0,Net->IsNode(2*NNodes));

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ(NI.GetId()+5, Net->GetNDat(NI.GetId()));
  }

  // update node data, node ID + 10
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Net->SetNDat(NI.GetId(), NI.GetId()+10);
  }

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ(NI.GetId()+10, Net->GetNDat(NI.GetId()));
  }
}
예제 #5
0
// Test set node data
void SetNodeData() {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEDatNet<TInt, TInt> > Net;
  TPt <TNodeEDatNet<TInt, TInt> > Net1;
  TPt <TNodeEDatNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;
  bool t;
  int NodeId;
  int NodeDat;
  int Value;
  bool ok;

  Net = TNodeEDatNet<TInt, TInt>::New();
  t = Net->Empty();

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i);
  }
  t = Net->Empty();
  n = Net->GetNodes();

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    // Net->GetEdges() is not correct for the loops (x == y),
    // skip the loops in this test
    if (x != y  &&  !Net->IsEdge(x,y)) {
      n = Net->AddEdge(x, y);
      NCount--;
    }
  }
  PrintNStats("SetNodeData:Net", Net);

  // set node data, square of node ID
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NodeId = NI.GetId();
    NodeDat = NI.GetId()*NI.GetId();
    Net->SetNDat(NodeId, NodeDat);
  }

  // read and test node data
  ok = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NodeDat = Net->GetNDat(NI.GetId());
    Value = NI.GetId()*NI.GetId();
    if (NodeDat != Value) {
      ok = false;
    }
  }
  printf("network SetNodeData:Net, status %s\n", (ok == true) ? "ok" : "ERROR");
}
예제 #6
0
void MakeSlashdotSignNet(const TStr InFNm, TStr OutFNm, TStr Desc, THashSet<TChA> NIdSet) {
  //THashSet<TChA> NIdSet;
  TChA LnStr;
  TVec<char *> WrdV;
  int Sign;
  //PSignNet Net = TSignNet::New();
  TPt<TNodeEDatNet<TInt, TInt> >  Net = TNodeEDatNet<TInt, TInt>::New();
  int i = 0;
  for (TFIn FIn(InFNm); FIn.GetNextLn(LnStr); ) {
    if (LnStr.Empty() || LnStr[0]=='#') { continue; }
    LnStr.ToLc();
    TStrUtil::SplitOnCh(LnStr, WrdV, '\t', false);
    //NIdSet.AddKey(WrdV[0]);
    if (strcmp(WrdV[1], "friends")==0) { Sign = 1; }
    else if (strcmp(WrdV[1], "fans")==0) { continue; } // skip (fans are in-friends)
    else if (strcmp(WrdV[1], "foes")==0) { Sign = -1; } else { Fail; }
    const int SrcNId = NIdSet.AddKey(WrdV[0]);
    if (! Net->IsNode(SrcNId)) {
      Net->AddNode(SrcNId); }   
    for (int e = 2; e < WrdV.Len(); e++) {
      const int DstNId = NIdSet.AddKey(WrdV[e]);
      i ++ ;
      if ((SrcNId != DstNId) && ! Net->IsEdge(SrcNId, DstNId)) {
        if (! Net->IsNode(DstNId))
          Net->AddNode(DstNId);
        Net->AddEdge(SrcNId, DstNId, Sign);
      }
    }  
  }  
  TSnap::PrintInfo(Net, "Slashdot (" + TInt::GetStr(i) + ")");  

  // copied from gio.h - line 111
  FILE *F = fopen(OutFNm.CStr(), "wt");
  fprintf(F, "# Directed graph: %s\n", OutFNm.CStr());
  if (! Desc.Empty()) 
    fprintf(F, "# %s\n", (Desc).CStr());
    fprintf(F, "# Nodes: %d Edges: %d\n", Net->GetNodes(), Net->GetEdges());
    fprintf(F, "# UserId\tGroupId\tSign\n"); 
  for (TNodeEDatNet<TInt,TInt>::TEdgeI ei = Net->BegEI(); ei < Net->EndEI(); ei++) {
      fprintf(F, "%d\t%d\t%d\n", ei.GetSrcNId(), ei.GetDstNId(), ei()());
  }
  fclose(F);
  
  PrintGraphStatTable(Net, OutFNm, Desc);
}
예제 #7
0
int main(int argc, char* argv[]) {
  // create a graph and save it
  { PNGraph Graph = TNGraph::New();
  for (int i = 0; i < 10; i++) {
    Graph->AddNode(i); }
  for (int i = 0; i < 10; i++) {
    Graph->AddEdge(i, TInt::Rnd.GetUniDevInt(10)); }
  TSnap::SaveEdgeList(Graph, "graph.txt", "Edge list format"); }
  // load a graph
  PNGraph Graph;
  Graph = TSnap::LoadEdgeList<PNGraph>("graph.txt", 0, 1);
  // traverse nodes
  for (TNGraph::TNodeI NI = Graph->BegNI(); NI < Graph->EndNI(); NI++) {
    printf("NodeId: %d, InDegree: %d, OutDegree: %d\n", NI.GetId(), NI.GetInDeg(), NI.GetOutDeg());
    printf("OutNodes: ");
    for (int e = 0; e < NI.GetOutDeg(); e++) { printf("  %d", NI.GetOutNId(e)); }
    printf("\nInNodes: ");
    for (int e = 0; e < NI.GetInDeg(); e++) { printf("  %d", NI.GetInNId(e)); }
    printf("\n\n");
  }
  // graph statistic
  TSnap::PrintInfo(Graph, "Graph info");
  PNGraph MxWcc = TSnap::GetMxWcc(Graph);
  TSnap::PrintInfo(MxWcc, "Largest Weakly connected component");
  // random graph
  PNGraph RndGraph = TSnap::GenRndGnm<PNGraph>(100, 1000);
  TGStat GraphStat(RndGraph, TSecTm(1), TGStat::AllStat(), "Gnm graph");
  GraphStat.PlotAll("RndGraph", "Random graph on 1000 nodes");
  // Forest Fire graph
  { TFfGGen ForestFire(false, 1, 0.35, 0.30, 1.0, 0.0, 0.0);
  ForestFire.GenGraph(100);
  PNGraph FfGraph = ForestFire.GetGraph(); }
  // network
  TPt<TNodeEDatNet<TStr, TStr> > Net = TNodeEDatNet<TStr, TStr>::New();
  Net->AddNode(0, "zero");
  Net->AddNode(1, "one");
  Net->AddEdge(0, 1, "zero to one");
  return 0;
}
예제 #8
0
// Test edge data sorting
TEST(TNodeEdgeNet, SortEdgeData) {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int i;
  int n;
  int x,y;
  bool Sorted;
  int Min;
  int Value;

  Net = TNodeEdgeNet<TInt, TInt>::New();
  EXPECT_EQ(1,Net->Empty());

  // create the nodes with node data x*x % NNodes
  for (i = 0; i < NNodes; i++) {
    x = (i*13) % NNodes;
    Net->AddNode(x, (x*x) % NNodes);
  }
  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(NNodes,Net->GetNodes());

  // create random edges with edge data x*y % NEdges
  for (i = 0; i < NEdges; i++) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    n = Net->AddEdge(x, y, (i*37) % NEdges, (x*y) % NEdges);
  }

  EXPECT_EQ(NEdges,Net->GetEdges());

  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(1,Net->IsOk());

  for (i = 0; i < NNodes; i++) {
    EXPECT_EQ(1,Net->IsNode(i));
  }

  EXPECT_EQ(0,Net->IsNode(NNodes));
  EXPECT_EQ(0,Net->IsNode(NNodes+1));
  EXPECT_EQ(0,Net->IsNode(2*NNodes));

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ((NI.GetId()*NI.GetId()) % NNodes, Net->GetNDat(NI.GetId()));
  }

  // test edge data
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    EXPECT_EQ((EI.GetSrcNId()*EI.GetDstNId()) % NEdges, Net->GetEDat(EI.GetId()));
  }

  // test sorting of edge IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Value = EI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // sort the nodes by edge IDs (sorted)
  Net->SortEIdById();

  // test sorting of edge IDs
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Value = EI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(true,Sorted);

  // test sorting of edge data (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Value = Net->GetEDat(EI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // sort the nodes by edge data
  Net->SortEIdByDat();

  // test sorting of edge data (sorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Value = Net->GetEDat(EI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(true,Sorted);

  // test sorting of edge IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Value = EI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // test edge data
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    EXPECT_EQ((EI.GetSrcNId()*EI.GetDstNId()) % NEdges, Net->GetEDat(EI.GetId()));
  }

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ((NI.GetId()*NI.GetId()) % NNodes, Net->GetNDat(NI.GetId()));
  }
}
예제 #9
0
// Test node data sorting
TEST(TNodeEdgeNet, SortNodeData) {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;
  bool Sorted;
  int Min;
  int Value;

  Net = TNodeEdgeNet<TInt, TInt>::New();
  EXPECT_EQ(1,Net->Empty());

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode((i*13) % NNodes);
  }
  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(NNodes,Net->GetNodes());

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    n = Net->AddEdge(x, y);
    NCount--;
  }

  EXPECT_EQ(NEdges,Net->GetEdges());

  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(1,Net->IsOk());

  for (i = 0; i < NNodes; i++) {
    EXPECT_EQ(1,Net->IsNode(i));
  }

  EXPECT_EQ(0,Net->IsNode(NNodes));
  EXPECT_EQ(0,Net->IsNode(NNodes+1));
  EXPECT_EQ(0,Net->IsNode(2*NNodes));

  // add data to nodes, square of node ID % NNodes
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    // Net->AddNode(NI.GetId(), (NI.GetId()*NI.GetId()) % NNodes);
    Net->SetNDat(NI.GetId(), NI.GetId()*NI.GetId() % NNodes);
  }

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ((NI.GetId()*NI.GetId()) % NNodes, Net->GetNDat(NI.GetId()));
  }

  // test sorting of node IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // sort the nodes by node IDs (sorted)
  Net->SortNIdById();

  // test sorting of node IDs
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(true,Sorted);

  // test sorting of node data (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = Net->GetNDat(NI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // sort the nodes by node data
  Net->SortNIdByDat();

  // test sorting of node data (sorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = Net->GetNDat(NI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(true,Sorted);

  // test sorting of node IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  EXPECT_EQ(false,Sorted);

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ((NI.GetId()*NI.GetId()) % NNodes, Net->GetNDat(NI.GetId()));
  }
}
예제 #10
0
// Test update edge data
TEST(TNodeEdgeNet, UpdateEdgeData) {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;

  Net = TNodeEdgeNet<TInt, TInt>::New();
  EXPECT_EQ(1,Net->Empty());

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i);
  }
  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(NNodes,Net->GetNodes());

  // create random edges and edge data x+y+10
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    n = Net->AddEdge(x, y, -1, x+y+10);
    // printf("0a %d %d %d\n",x,y,n);
    NCount--;
  }

  EXPECT_EQ(NEdges,Net->GetEdges());

  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(1,Net->IsOk());

  for (i = 0; i < NNodes; i++) {
    EXPECT_EQ(1,Net->IsNode(i));
  }

  EXPECT_EQ(0,Net->IsNode(NNodes));
  EXPECT_EQ(0,Net->IsNode(NNodes+1));
  EXPECT_EQ(0,Net->IsNode(2*NNodes));

  // add data to nodes, square of node ID
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Net->SetNDat(NI.GetId(), NI.GetId()*NI.GetId());
  }

  // test node data
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ(NI.GetId()*NI.GetId(), Net->GetNDat(NI.GetId()));
  }

  // verify edge data, x+y+10
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    EXPECT_EQ(EI.GetSrcNId()+EI.GetDstNId()+10, Net->GetEDat(EI.GetId()));
  }

  // update edge data, x+y+5
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Net->SetEDat(EI.GetId(),EI.GetSrcNId()+EI.GetDstNId()+5);
  }

  // verify edge data, x+y+5
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    EXPECT_EQ(EI.GetSrcNId()+EI.GetDstNId()+5, Net->GetEDat(EI.GetId()));
  }

  // test node data again
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    EXPECT_EQ(NI.GetId()*NI.GetId(), Net->GetNDat(NI.GetId()));
  }
}
예제 #11
0
// Test node, edge creation
TEST(TNodeEdgeNet, ManipulateNodesEdges) {
  int NNodes = 10000;
  int NEdges = 100000;
  const char *FName = "test.net";

  TPt <TNodeEdgeNet<TInt, TInt> > Net;
  TPt <TNodeEdgeNet<TInt, TInt> > Net1;
  TPt <TNodeEdgeNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;
  int Deg, InDeg, OutDeg;

  Net = TNodeEdgeNet<TInt, TInt>::New();
  EXPECT_EQ(1,Net->Empty());

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i);
  }
  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(NNodes,Net->GetNodes());

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    n = Net->AddEdge(x, y);
    NCount--;
  }

  EXPECT_EQ(NEdges,Net->GetEdges());

  EXPECT_EQ(0,Net->Empty());
  EXPECT_EQ(1,Net->IsOk());

  for (i = 0; i < NNodes; i++) {
    EXPECT_EQ(1,Net->IsNode(i));
  }

  EXPECT_EQ(0,Net->IsNode(NNodes));
  EXPECT_EQ(0,Net->IsNode(NNodes+1));
  EXPECT_EQ(0,Net->IsNode(2*NNodes));

  // nodes iterator
  NCount = 0;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NCount++;
  }
  EXPECT_EQ(NNodes,NCount);

  // edges per node iterator
  NCount = 0;
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    for (int e = 0; e < NI.GetOutDeg(); e++) {
      NCount++;
    }
  }
  EXPECT_EQ(NEdges,NCount);

  // edges iterator
  NCount = 0;
  for (TNodeEdgeNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    NCount++;
  }
  EXPECT_EQ(NEdges,NCount);

  // node degree
  for (TNodeEdgeNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Deg = NI.GetDeg();
    InDeg = NI.GetInDeg();
    OutDeg = NI.GetOutDeg();

    EXPECT_EQ(Deg,InDeg+OutDeg);
  }

  // assignment
  Net1 = TNodeEdgeNet<TInt, TInt>::New();
  *Net1 = *Net;

  EXPECT_EQ(NNodes,Net1->GetNodes());
  EXPECT_EQ(NEdges,Net1->GetEdges());
  EXPECT_EQ(0,Net1->Empty());
  EXPECT_EQ(1,Net1->IsOk());

  // saving and loading
  {
    TFOut FOut(FName);
    Net->Save(FOut);
    FOut.Flush();
  }

  {
    TFIn FIn(FName);
    Net2 = TNodeEdgeNet<TInt, TInt>::Load(FIn);
  }

  EXPECT_EQ(NNodes,Net2->GetNodes());
  EXPECT_EQ(NEdges,Net2->GetEdges());
  EXPECT_EQ(0,Net2->Empty());
  EXPECT_EQ(1,Net2->IsOk());

  // remove all the nodes and edges
  for (i = 0; i < NNodes; i++) {
    n = Net->GetRndNId();
    Net->DelNode(n);
  }

  EXPECT_EQ(0,Net->GetNodes());
  EXPECT_EQ(0,Net->GetEdges());

  EXPECT_EQ(1,Net->IsOk());
  EXPECT_EQ(1,Net->Empty());

  Net1->Clr();

  EXPECT_EQ(0,Net1->GetNodes());
  EXPECT_EQ(0,Net1->GetEdges());

  EXPECT_EQ(1,Net1->IsOk());
  EXPECT_EQ(1,Net1->Empty());
}
예제 #12
0
// Test node data sorting
void SortNodeData() {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEDatNet<TInt, TInt> > Net;
  TPt <TNodeEDatNet<TInt, TInt> > Net1;
  TPt <TNodeEDatNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;
  bool t;
  int NodeId;
  int NodeDat;
  bool ok;
  bool Sorted;
  int Min;
  int Value;

  Net = TNodeEDatNet<TInt, TInt>::New();
  t = Net->Empty();

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode((i*13) % NNodes);
  }
  t = Net->Empty();
  n = Net->GetNodes();

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    // Net->GetEdges() is not correct for the loops (x == y),
    // skip the loops in this test
    if (x != y  &&  !Net->IsEdge(x,y)) {
      n = Net->AddEdge(x, y);
      NCount--;
    }
  }
  PrintNStats("SortNodeData:Net", Net);

  // add data to nodes, square of node ID % NNodes
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NodeId = NI.GetId();
    NodeDat = (NI.GetId()*NI.GetId()) % NNodes;
    Net->SetNDat(NodeId, NodeDat);
  }

  // test node data
  ok = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NodeDat = Net->GetNDat(NI.GetId());
    Value = (NI.GetId()*NI.GetId()) % NNodes;
    if (NodeDat != Value) {
      ok = false;
    }
  }
  printf("network SortNodeData:Net, status1 %s\n", (ok == true) ? "ok" : "ERROR");

  // test sorting of node IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  printf("network SortNodeData:Net, status2 %s\n", (Sorted == false) ? "ok" : "ERROR");

  // sort the nodes by node IDs (sorted)
  Net->SortNIdById();

  // test sorting of node IDs
  Min = -1;
  Sorted = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  printf("network SortNodeData:Net, status3 %s\n", (Sorted == true) ? "ok" : "ERROR");

  // test sorting of node data (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = Net->GetNDat(NI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  printf("network SortNodeData:Net, status4 %s\n", (Sorted == false) ? "ok" : "ERROR");

  // sort the nodes by node data
  Net->SortNIdByDat();

  // test sorting of node data (sorted)
  Min = -1;
  Sorted = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = Net->GetNDat(NI.GetId());
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  printf("network SortNodeData:Net, status5 %s\n", (Sorted == true) ? "ok" : "ERROR");

  // test sorting of node IDs (unsorted)
  Min = -1;
  Sorted = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    Value = NI.GetId();
    if (Min > Value) {
      Sorted = false;
    }
    Min = Value;
  }
  printf("network SortNodeData:Net, status6 %s\n", (Sorted == false) ? "ok" : "ERROR");

  // test node data
  ok = true;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NodeDat = Net->GetNDat(NI.GetId());
    Value = (NI.GetId()*NI.GetId()) % NNodes;
    if (NodeDat != Value) {
      ok = false;
    }
  }
  printf("network SortNodeData:Net, status7 %s\n", (ok == true) ? "ok" : "ERROR");
}
예제 #13
0
// Test update edge data
void UpdateEdgeData() {
  int NNodes = 10000;
  int NEdges = 100000;

  TPt <TNodeEDatNet<TInt, TInt> > Net;
  TPt <TNodeEDatNet<TInt, TInt> > Net1;
  TPt <TNodeEDatNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int x,y;
  bool t;
  int SrcNId;
  int DstNId;
  int EdgeDat;
  int Value;
  bool ok;

  Net = TNodeEDatNet<TInt, TInt>::New();
  t = Net->Empty();

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i);
  }
  t = Net->Empty();
  n = Net->GetNodes();

  // create random edges and edge data x+y+10
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    // Net->GetEdges() is not correct for the loops (x == y),
    // skip the loops in this test
    if (x != y  &&  !Net->IsEdge(x,y)) {
      n = Net->AddEdge(x, y, x+y+10);
      NCount--;
    }
  }
  PrintNStats("UpdateEdgeData:Net", Net);

  // verify edge data, x+y+10
  ok = true;
  for (TNodeEDatNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    SrcNId = EI.GetSrcNId();
    DstNId = EI.GetDstNId();
    EdgeDat = Net->GetEDat(SrcNId, DstNId);
    Value = SrcNId+DstNId+10;
    if (EdgeDat != Value) {
      ok = false;
    }
  }
  printf("network UpdateEdgeData:Net, status1 %s\n", (ok == true) ? "ok" : "ERROR");

  // update edge data, x+y+5
  for (TNodeEDatNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    Net->SetEDat(EI.GetSrcNId(),EI.GetDstNId(),EI.GetSrcNId()+EI.GetDstNId()+5);
  }

  // verify edge data, x+y+5
  ok = true;
  for (TNodeEDatNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    SrcNId = EI.GetSrcNId();
    DstNId = EI.GetDstNId();
    EdgeDat = Net->GetEDat(SrcNId, DstNId);
    Value = SrcNId+DstNId+5;
    if (EdgeDat != Value) {
      ok = false;
    }
  }
  printf("network UpdateEdgeData:Net, status2 %s\n", (ok == true) ? "ok" : "ERROR");
}
예제 #14
0
// Test node, edge creation
void ManipulateNodesEdges() {
  int NNodes = 10000;
  int NEdges = 100000;
  const char *FName = "demo.net.dat";

  TPt <TNodeEDatNet<TInt, TInt> > Net;
  TPt <TNodeEDatNet<TInt, TInt> > Net1;
  TPt <TNodeEDatNet<TInt, TInt> > Net2;
  int i;
  int n;
  int NCount;
  int ECount1;
  int ECount2;
  int x,y;
  bool t;

  Net = TNodeEDatNet<TInt, TInt>::New();
  t = Net->Empty();

  // create the nodes
  for (i = 0; i < NNodes; i++) {
    Net->AddNode(i);
  }
  t = Net->Empty();
  n = Net->GetNodes();

  // create random edges
  NCount = NEdges;
  while (NCount > 0) {
    x = (long) (drand48() * NNodes);
    y = (long) (drand48() * NNodes);
    // Net->GetEdges() is not correct for the loops (x == y),
    // skip the loops in this test
    if (x != y  &&  !Net->IsEdge(x,y)) {
      n = Net->AddEdge(x, y);
      NCount--;
    }
  }
  PrintNStats("ManipulateNodesEdges:Net", Net);

  // get all the nodes
  NCount = 0;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    NCount++;
  }

  // get all the edges for all the nodes
  ECount1 = 0;
  for (TNodeEDatNet<TInt, TInt>::TNodeI NI = Net->BegNI(); NI < Net->EndNI(); NI++) {
    for (int e = 0; e < NI.GetOutDeg(); e++) {
      ECount1++;
    }
  }

  // get all the edges directly
  ECount2 = 0;
  for (TNodeEDatNet<TInt, TInt>::TEdgeI EI = Net->BegEI(); EI < Net->EndEI(); EI++) {
    ECount2++;
  }
  printf("network ManipulateNodesEdges:Net, nodes %d, edges1 %d, edges2 %d\n",
      NCount, ECount1, ECount2);

  // assignment
  Net1 = TNodeEDatNet<TInt, TInt>::New();
  *Net1 = *Net;
  PrintNStats("ManipulateNodesEdges:Net1",Net1);

  // save the network
  {
    TFOut FOut(FName);
    Net->Save(FOut);
    FOut.Flush();
  }

  // load the network
  {
    TFIn FIn(FName);
    Net2 = TNodeEDatNet<TInt, TInt>::Load(FIn);
  }
  PrintNStats("ManipulateNodesEdges:Net2",Net2);

  // remove all the nodes and edges
  for (i = 0; i < NNodes; i++) {
    n = Net->GetRndNId();
    Net->DelNode(n);
  }
  PrintNStats("ManipulateNodesEdges:Net",Net);

  Net1->Clr();
  PrintNStats("ManipulateNodesEdges:Net1",Net1);
}