TFfGGen Class Reference

#include <ff.h>

Collaboration diagram for TFfGGen:

List of all members.

Public Types
enum	TStopReason { srUndef, srOk, srFlood, srTimeLimit }
Public Member Functions
	TFfGGen (const bool &BurnExpFireP, const int &StartNNodes, const double &ForwBurnProb, const double &BackBurnProb, const double &DecayProb, const double &Take2AmbasPrb, const double &OrphanPrb)
PNGraph	GetGraph () const
void	SetGraph (const PNGraph &NGraph)
void	Clr ()
TStr	GetParamStr () const
TStopReason	AddNodes (const int &GraphNodes, const bool &FloodStop=true)
TStopReason	GenGraph (const int &GraphNodes, const bool &FloodStop=true)
TStopReason	GenGraph (const int &GraphNodes, PGStatVec &EvolStat, const bool &FloodStop=true)
void	PlotFireSize (const TStr &FNmPref, const TStr &DescStr)
Static Public Member Functions
static void	GenFFGraphs (const double &FProb, const double &BProb, const TStr &FNm)
Static Public Attributes
static int	TimeLimitSec = 30*60
Private Attributes
PNGraph	Graph
TBool	BurnExpFire
TInt	StartNodes
TFlt	FwdBurnProb
TFlt	BckBurnProb
TFlt	ProbDecay
TFlt	Take2AmbProb
TFlt	OrphanProb

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Detailed Description

Forest Fire Graph Generator. For more details is "Graph Evolution: Densification and Shrinking Diameters" by J. Leskovec, J. Kleinberg, C. Faloutsos. ACM Transactions on Knowledge Discovery from Data (TKDD), 1(1), 2007.

Definition at line 49 of file ff.h.

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Member Enumeration Documentation

enum TFfGGen::TStopReason

Enumerator:

srUndef
srOk
srFlood
srTimeLimit

Definition at line 51 of file ff.h.

{ srUndef, srOk, srFlood, srTimeLimit } TStopReason;

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Constructor & Destructor Documentation

TFfGGen::TFfGGen	(	const bool &	BurnExpFireP,
		const int &	StartNNodes,
		const double &	ForwBurnProb,
		const double &	BackBurnProb,
		const double &	DecayProb,
		const double &	Take2AmbasPrb,
		const double &	OrphanPrb
	)

Definition at line 260 of file ff.cpp.

                                                                                                                            :
 Graph(), BurnExpFire(BurnExpFireP), StartNodes(StartNNodes), FwdBurnProb(ForwBurnProb),
 BckBurnProb(BackBurnProb), ProbDecay(DecayProb), Take2AmbProb(Take2AmbasPrb), OrphanProb(OrphanPrb) {
  //IAssert(ProbDecay == 1.0); // do not need Decay any more
}

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Member Function Documentation

TFfGGen::TStopReason TFfGGen::AddNodes	(	const int &	GraphNodes,
		const bool &	FloodStop = true
	)

Definition at line 272 of file ff.cpp.

References TNGraph::AddEdge(), TNGraph::AddNode(), BckBurnProb, TForestFire::BurnExpFire(), BurnExpFire, TForestFire::BurnGeoFire(), TPt< TRec >::Empty(), FwdBurnProb, TForestFire::GetBurned(), TForestFire::GetBurnedNId(), TNGraph::GetEdges(), TNGraph::GetNodes(), TExeTm::GetSecs(), TExeTm::GetStr(), TRnd::GetUniDev(), TRnd::GetUniDevInt(), TVec< TInt >::GetV(), Graph, IAssert, TForestFire::Infect(), Kilo, TPt< TNGraph >::New(), OrphanProb, ProbDecay, srFlood, srOk, srTimeLimit, StartNodes, Take2AmbProb, and TimeLimitSec.

Referenced by GenGraph().

                                                                                 {
  printf("\n***ForestFire:  %s  Nodes:%d  StartNodes:%d  Take2AmbProb:%g\n", BurnExpFire?"ExpFire":"GeoFire", GraphNodes, StartNodes(), Take2AmbProb());
  printf("                FwdBurnP:%g  BckBurnP:%g  ProbDecay:%g  Orphan:%g\n", FwdBurnProb(), BckBurnProb(), ProbDecay(), OrphanProb());
  TExeTm ExeTm;
  int Burned1=0, Burned2=0, Burned3=0; // last 3 fire sizes
  // create initial set of nodes
  if (Graph.Empty()) { Graph = PNGraph::New(); }
  if (Graph->GetNodes() == 0) {
    for (int n = 0; n < StartNodes; n++) { Graph->AddNode(); }
  }
  int NEdges = Graph->GetEdges();
  // forest fire
  TRnd Rnd(0);
  TForestFire ForestFire(Graph, FwdBurnProb, BckBurnProb, ProbDecay, 0);
  // add nodes
  for (int NNodes = Graph->GetNodes()+1; NNodes <= GraphNodes; NNodes++) {
    const int NewNId = Graph->AddNode(-1);
    IAssert(NewNId == Graph->GetNodes()-1); // node ids have to be 0...N
    // not an Orphan (burn fire)
    if (OrphanProb == 0.0 || Rnd.GetUniDev() > OrphanProb) {
      // infect ambassadors
      if (Take2AmbProb == 0.0 || Rnd.GetUniDev() > Take2AmbProb || NewNId < 2) {
        ForestFire.Infect(Rnd.GetUniDevInt(NewNId)); // take 1 ambassador
      } else {
        const int AmbassadorNId1 = Rnd.GetUniDevInt(NewNId);
        int AmbassadorNId2 = Rnd.GetUniDevInt(NewNId);
        while (AmbassadorNId1 == AmbassadorNId2) {
          AmbassadorNId2 = Rnd.GetUniDevInt(NewNId); }
        ForestFire.Infect(TIntV::GetV(AmbassadorNId1, AmbassadorNId2)); // take 2 ambassadors
      }
      // burn fire
      if (BurnExpFire) { ForestFire.BurnExpFire(); }
      else { ForestFire.BurnGeoFire(); }
      // add edges to burned nodes
      for (int e = 0; e < ForestFire.GetBurned(); e++) {
        Graph->AddEdge(NewNId, ForestFire.GetBurnedNId(e));
        NEdges++;
      }
      Burned1=Burned2;  Burned2=Burned3;  Burned3=ForestFire.GetBurned();
    } else {
      // Orphan (zero out-links)
      Burned1=Burned2;  Burned2=Burned3;  Burned3=0;
    }
    if (NNodes % Kilo(1) == 0) {
      printf("(%d, %d)  burned: [%d,%d,%d]  [%s]\n", NNodes, NEdges, Burned1, Burned2, Burned3, ExeTm.GetStr()); }
    if (FloodStop && NEdges>GraphNodes && (NEdges/double(NNodes)>1000.0)) { // average node degree is more than 500
      printf(". FLOOD. G(%6d, %6d)\n", NNodes, NEdges);  return srFlood; }
    if (NNodes % 1000 == 0 && TimeLimitSec > 0 && ExeTm.GetSecs() > TimeLimitSec) {
      printf(". TIME LIMIT. G(%d, %d)\n", Graph->GetNodes(), Graph->GetEdges());
      return srTimeLimit; }
  }
  IAssert(Graph->GetEdges() == NEdges);
  return srOk;
}

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void TFfGGen::Clr

(

)

[inline]

Definition at line 66 of file ff.h.

References TNGraph::Clr(), and Graph.

{ Graph->Clr(); }

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void TFfGGen::GenFFGraphs	(	const double &	FProb,
		const double &	BProb,
		const TStr &	FNm
	)		[static]

Definition at line 358 of file ff.cpp.

References TVec< TVal, TSizeTy >::Add(), TGStat::AllStat(), TStr::Fmt(), GenGraph(), gsvNodes, IAssert, TVec< TVal, TSizeTy >::Len(), TGStat::NDiamRuns, TGStatVec::New(), and tmuNodes.

                                                                                   {
  const int NRuns = 10;
  const int NNodes = 10000;
  TGStat::NDiamRuns = 10;
  //const double FProb = 0.35, BProb = 0.20;  // ff1
  //const double FProb = 0.37, BProb = 0.32;  // ff2
  //const double FProb = 0.37, BProb = 0.325; // ff22
  //const double FProb = 0.37, BProb = 0.33;  // ff3
  //const double FProb = 0.37, BProb = 0.35;  // ff4
  //const double FProb = 0.38, BProb = 0.35;  // ff5
  TVec<PGStatVec> GAtTmV;
  TFfGGen FF(false, 1, FProb, BProb, 1.0, 0, 0);
  for (int r = 0; r < NRuns; r++) {
    PGStatVec GV = TGStatVec::New(tmuNodes, TGStat::AllStat());
    FF.GenGraph(NNodes, GV, true);
    for (int i = 0; i < GV->Len(); i++) {
      if (i == GAtTmV.Len()) {
        GAtTmV.Add(TGStatVec::New(tmuNodes, TGStat::AllStat()));
      }
      GAtTmV[i]->Add(GV->At(i));
    }
    IAssert(GAtTmV.Len() == GV->Len());
  }
  PGStatVec AvgStat = TGStatVec::New(tmuNodes, TGStat::AllStat());
  for (int i = 0; i < GAtTmV.Len(); i++) {
    AvgStat->Add(GAtTmV[i]->GetAvgGStat(false));
  }
  AvgStat->PlotAllVsX(gsvNodes, FNm, TStr::Fmt("Forest Fire: F:%g  B:%g (%d runs)", FProb, BProb, NRuns));
  AvgStat->Last()->PlotAll(FNm, TStr::Fmt("Forest Fire: F:%g  B:%g (%d runs)", FProb, BProb, NRuns));
}

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TFfGGen::TStopReason TFfGGen::GenGraph	(	const int &	GraphNodes,
		const bool &	FloodStop = true
	)

Definition at line 327 of file ff.cpp.

References AddNodes(), Graph, and TPt< TNGraph >::New().

Referenced by GenFFGraphs(), TForestFire::GenGraph(), and main().

                                                                                 {
  Graph = PNGraph::New();
  return AddNodes(GraphNodes, FloodStop);
}

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TFfGGen::TStopReason TFfGGen::GenGraph	(	const int &	GraphNodes,
		PGStatVec &	EvolStat,
		const bool &	FloodStop = true
	)

Definition at line 332 of file ff.cpp.

References AddNodes(), TNGraph::GetNodes(), Graph, TPt< TNGraph >::New(), srOk, srUndef, and StartNodes.

                                                                                                      {
  int GrowthStatNodes = 100;
  Graph = PNGraph::New();
  AddNodes(StartNodes);
  TStopReason SR = srUndef;
  while (Graph->GetNodes() < GraphNodes) {
    SR = AddNodes(GrowthStatNodes, FloodStop);
    if (SR != srOk) { return SR; }
    EvolStat->Add(Graph, TSecTm(Graph->GetNodes()));
    GrowthStatNodes = int(1.5*GrowthStatNodes);
  }
  return SR;
}

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PNGraph TFfGGen::GetGraph

(

)

const [inline]

Definition at line 64 of file ff.h.

References Graph.

Referenced by TForestFire::GenGraph(), and main().

{ return Graph; }

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TStr TFfGGen::GetParamStr

(

)

const

Definition at line 267 of file ff.cpp.

References BckBurnProb, BurnExpFire, TStr::Fmt(), FwdBurnProb, OrphanProb, ProbDecay, StartNodes, and Take2AmbProb.

                                {
  return TStr::Fmt("%s  FWD:%g  BCK:%g, StartNds:%d, Take2:%g, Orphan:%g, ProbDecay:%g",
    BurnExpFire?"EXP":"GEO", FwdBurnProb(), BckBurnProb(), StartNodes(), Take2AmbProb(), OrphanProb(), ProbDecay());
}

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void TFfGGen::PlotFireSize	(	const TStr &	FNmPref,
		const TStr &	DescStr
	)

Definition at line 346 of file ff.cpp.

References TVec< TVal, TSizeTy >::Add(), TGnuPlot::AddPlot(), TNGraph::BegNI(), TStr::CStr(), TNGraph::EndNI(), TStr::Fmt(), TNGraph::GetEdges(), TNGraph::GetNodes(), gpwImpulses, Graph, TGnuPlot::SavePng(), TGnuPlot::SetXYLabel(), and TVec< TVal, TSizeTy >::Sort().

                                                                   {
  TGnuPlot GnuPlot("fs."+FNmPref, TStr::Fmt("%s. Fire size. G(%d, %d)",
    DescStr.CStr(), Graph->GetNodes(), Graph->GetEdges()));
  GnuPlot.SetXYLabel("Vertex id (iterations)", "Fire size (node out-degree)");
  TFltPrV IdToOutDegV;
  for (TNGraph::TNodeI NI = Graph->BegNI(); NI < Graph->EndNI(); NI++) {
    IdToOutDegV.Add(TFltPr(NI.GetId(), NI.GetOutDeg())); }
  IdToOutDegV.Sort();
  GnuPlot.AddPlot(IdToOutDegV, gpwImpulses, "Node out-degree");
  GnuPlot.SavePng();
}

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void TFfGGen::SetGraph

(

const PNGraph &

NGraph

)

[inline]

Definition at line 65 of file ff.h.

References Graph.

{ Graph = NGraph; }

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Member Data Documentation

TFlt TFfGGen::BckBurnProb [private]

Definition at line 58 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

TBool TFfGGen::BurnExpFire [private]

Definition at line 56 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

TFlt TFfGGen::FwdBurnProb [private]

Definition at line 58 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

PNGraph TFfGGen::Graph [private]

Definition at line 54 of file ff.h.

Referenced by AddNodes(), Clr(), GenGraph(), GetGraph(), PlotFireSize(), and SetGraph().

TFlt TFfGGen::OrphanProb [private]

Definition at line 59 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

TFlt TFfGGen::ProbDecay [private]

Definition at line 58 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

TInt TFfGGen::StartNodes [private]

Definition at line 57 of file ff.h.

Referenced by AddNodes(), GenGraph(), and GetParamStr().

TFlt TFfGGen::Take2AmbProb [private]

Definition at line 59 of file ff.h.

Referenced by AddNodes(), and GetParamStr().

int TFfGGen::TimeLimitSec = 30*60 [static]

Definition at line 52 of file ff.h.

Referenced by AddNodes().

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The documentation for this class was generated from the following files:

• snap-core/ff.h
• snap-core/ff.cpp