d0/df1/cascdynetinf_8h_source.html

 #ifndef snap_cascdynetinf_h

 #define snap_cascdynetinf_h


 #include "Snap.h"


 // pairwise transmission models

 typedef enum {

   EXP, // exponential

   POW, // powerlaw

   RAY, // rayleigh

   WEI // weibull

 } TModel;


 // tx rates trends over time for synthetic experiments

 typedef enum {

   CONSTANT, // constant

   LINEAR, // linear trend up/down

   EXPONENTIAL, // exponential trend

   RAYLEIGH, // rayleigh trend

   SLAB, // slab

   SQUARE, // square

   CHAINSAW, // chainsaw

   RANDOM // random noise around alpha value

 } TVarying;


 // optimization methods

 typedef enum {

   OSG,    // stochastic gradient

   OWSG,    // windowed stochastic gradient

   OESG,   // exponential decay stochastic gradient

   OWESG,  // windowed exponential decay stochastic gradient

   ORSG,  // rayleigh decay stochastic gradient

   OBSG,   // no decay batch stochastic gradient

   OWBSG,   // windowed batch stochastic gradient

   OEBSG,  // exponential decay batch stochastic gradient

   ORBSG,  // rayleigh decay batch stochastic gradient

   OFG

 } TOptMethod;


 typedef enum {

   UNIF_SAMPLING,

   WIN_SAMPLING,

   EXP_SAMPLING,

   WIN_EXP_SAMPLING,

   RAY_SAMPLING

 } TSampling;


 // l2 regularizer on/off

 typedef enum {

   NONE, // no regularizer

   L2REG // L2 regularizer

 } TRegularizer;


 typedef enum {

   TIME_STEP, // run inference every time step

   INFECTION_STEP, // run inference every # number of infections

   CASCADE_STEP, // run inference every time a cascade "finishes"

   SINGLE_STEP

 } TRunningMode;


 typedef TNodeEDatNet<TStr, TFltFltH> TStrFltFltHNEDNet;

 typedef TPt<TStrFltFltHNEDNet> PStrFltFltHNEDNet;


 typedef TNodeEDatNet<TStr, TFlt> TStrFltNEDNet;

 typedef TPt<TStrFltNEDNet> PStrFltNEDNet;


 // Hit info (node id, timestamp) about a node in a cascade

 class THitInfo {

 public:

   TInt NId;

   TFlt Tm;

   TIntV Keywords;

 public:

   THitInfo(const int& NodeId=-1, const double& HitTime=0) : NId(NodeId), Tm(HitTime) { }

   THitInfo(TSIn& SIn) : NId(SIn), Tm(SIn), Keywords(SIn) { }

   void AddKeyword(const int& KId) { Keywords.AddUnique(KId); }

   void DelKeywords() { Keywords.Clr(); }

   void Save(TSOut& SOut) const { NId.Save(SOut); Tm.Save(SOut); Keywords.Save(SOut); }

   bool operator < (const THitInfo& Hit) const {

     return Tm < Hit.Tm; }

 };


 // Cascade

 class TCascade {

 public:

   TInt CId; // cascade id

   THash<TInt, THitInfo> NIdHitH; // infected nodes

   TInt Model; // pairwise transmission model

 public:

   TCascade() : CId(0), NIdHitH(), Model(0) { }

   TCascade(const int &model) : NIdHitH() { Model = model; }

   TCascade(const int &cid, const int& model) : NIdHitH() { CId = cid; Model = model; }

   TCascade(TSIn& SIn) : CId(SIn), NIdHitH(SIn), Model(SIn) { }

   void Save(TSOut& SOut) const  { CId.Save(SOut); NIdHitH.Save(SOut); Model.Save(SOut); }

   void Clr() { NIdHitH.Clr(); }

   int GetId() { return CId; }

   int Len() const { return NIdHitH.Len(); }

   int LenBeforeT(const double& T) { int len = 0; while (len < NIdHitH.Len() && NIdHitH[len].Tm <= T) { len++; } return len; }

   int LenAfterT(const double& T) { int len = 0; while (len < NIdHitH.Len() && NIdHitH[NIdHitH.Len()-1-len].Tm >= T) { len++; } return len; }

   int GetNode(const int& i) const { return NIdHitH.GetKey(i); }

   THash<TInt, THitInfo>::TIter BegI() const { return NIdHitH.BegI(); }

   THash<TInt, THitInfo>::TIter EndI() const { return NIdHitH.EndI(); }

   int GetModel() const { return Model; }

   double GetTm(const int& NId) const { return NIdHitH.GetDat(NId).Tm; }

   double GetMaxTm() const { return NIdHitH[NIdHitH.Len()-1].Tm; } // we assume the cascade is sorted

   double GetMinTm() const { return NIdHitH[0].Tm; } // we assume the cascade is sorted

   void Add(const int& NId, const double& HitTm) { NIdHitH.AddDat(NId, THitInfo(NId, HitTm)); }

   void Del(const int& NId) { NIdHitH.DelKey(NId); }

   bool IsNode(const int& NId) const { return NIdHitH.IsKey(NId); }

   void Sort() { NIdHitH.SortByDat(true); }

   bool operator < (const TCascade& Cascade) const {

       return Len() < Cascade.Len(); }

 };


 // Node info (name and number of cascades)

 class TNodeInfo {

 public:

   TStr Name;

   TInt Vol;

 public:

   TNodeInfo() { }

   TNodeInfo(const TStr& NodeNm, const int& Volume) : Name(NodeNm), Vol(Volume) { }

   TNodeInfo(TSIn& SIn) : Name(SIn), Vol(SIn) { }

   void Save(TSOut& SOut) const { Name.Save(SOut); Vol.Save(SOut); }

   bool operator < (const TNodeInfo& NodeInfo) const {

       return Vol < NodeInfo.Vol; }

 };


 // Stochastic gradient network inference class

 class TNIBs {

 public:

   THash<TInt, TCascade> CascH; // cascades, indexed by id

   THash<TInt, TNodeInfo> NodeNmH; // node info (name, volume), indexed by node id

   TStrIntH DomainsIdH; // domain, DomainId hash table

   TStrIntH CascadeIdH; // quote, CascadeId hash table, QuoteId is equivalent to cascadeId


   // cascades per edge

   THash<TIntPr, TIntV> CascPerEdge;


   // network

   TStrFltFltHNEDNet Network;


   // pairwise transmission model

   TModel Model;


   // time horizon per cascade (if it is fixed), and totaltime

   TFlt Window, TotalTime;


   // delta for power-law and k for weibull

   TFlt Delta, K;


   // step (gamma), regularizer (mu), tolerance, and min/max alpha for stochastic gradient descend

   TFlt Gamma, Mu, Aging;

   TRegularizer Regularizer;

   TFlt Tol, MaxAlpha, MinAlpha, InitAlpha;


   // inferred network

   TStrFltFltHNEDNet InferredNetwork;

   TIntFltH TotalCascadesAlpha;


   // gradients (per alpha & cascade)

   TIntFltH AveDiffAlphas;

   THash<TInt, TIntFltH> DiffAlphas;


   // sampled cascades

   TIntIntPrH SampledCascadesH;


   // performance measures

   TFltPrV PrecisionRecall;

   TFltPrV Accuracy, MAE, MSE;


 public:

   TNIBs( ) { }

   TNIBs(TSIn& SIn) : CascH(SIn), NodeNmH(SIn), CascPerEdge(SIn), InferredNetwork(SIn) { Model = EXP; }

   void Save(TSOut& SOut) const { CascH.Save(SOut); NodeNmH.Save(SOut); CascPerEdge.Save(SOut); InferredNetwork.Save(SOut); }


   // functions to load text cascades & network files

   void LoadCascadesTxt(TSIn& SIn);

   void LoadGroundTruthTxt(TSIn& SIn);

   void LoadGroundTruthNodesTxt(TSIn& SIn);

   void LoadInferredTxt(TSIn& SIn);

   void LoadInferredNodesTxt(TSIn& SIn);


   // maximum time for synthetic generation, tx model & window per cascade (if any)

   void SetTotalTime(const float& tt) { TotalTime = tt; }

   void SetModel(const TModel& model) { Model = model; }

   void SetWindow(const double& window) { Window = window; }


   // delta for power law & k for weibull

   void SetDelta(const double& delta) { Delta = delta; }

   void SetK(const double& k) { K = k; }


   // optimization parameters

   void SetGamma(const double& gamma) { Gamma = gamma; }

   void SetAging(const double& aging) { Aging = aging; }

   void SetRegularizer(const TRegularizer& reg) { Regularizer = reg; }

   void SetMu(const double& mu) { Mu = mu; }

   void SetTolerance(const double& tol) { Tol = tol; }

   void SetMaxAlpha(const double& ma) { MaxAlpha = ma; }

   void SetMinAlpha(const double& ma) { MinAlpha = ma; }

   void SetInitAlpha(const double& ia) { InitAlpha = ia; }


   // processing cascades

   void AddCasc(const TStr& CascStr, const TModel& Model=EXP);

   void AddCasc(const TCascade& Cascade) { CascH.AddDat(Cascade.CId) = Cascade; }

   void AddCasc(const TIntFltH& Cascade, const int& CId=-1, const TModel& Model=EXP);

   void GenCascade(TCascade& C);

   bool IsCascade(int c) { return CascH.IsKey(c); }

   TCascade & GetCasc(int c) { return CascH.GetDat(c); }

   int GetCascs() { return CascH.Len(); }

   int GetCascadeId(const TStr& Cascade) { return CascadeIdH.GetDat(Cascade); }


   // node info

   int GetNodes() { return InferredNetwork.GetNodes(); }

   void AddNodeNm(const int& NId, const TNodeInfo& Info) { NodeNmH.AddDat(NId, Info); }

   TStr GetNodeNm(const int& NId) const { return NodeNmH.GetDat(NId).Name; }

   TNodeInfo GetNodeInfo(const int& NId) const { return NodeNmH.GetDat(NId); }

   bool IsNodeNm(const int& NId) const { return NodeNmH.IsKey(NId); }

   void SortNodeNmByVol(const bool& asc=false) { NodeNmH.SortByDat(asc); }


   // domains

   void AddDomainNm(const TStr& Domain, const int& DomainId=-1) { DomainsIdH.AddDat(Domain) = TInt(DomainId==-1? DomainsIdH.Len() : DomainId); }

   bool IsDomainNm(const TStr& Domain) const { return DomainsIdH.IsKey(Domain); }

   int GetDomainId(const TStr& Domain) { return DomainsIdH.GetDat(Domain); }


   // get network or graph at a given time

   void GetGroundTruthGraphAtT(const double& Step, PNGraph &GraphAtT);

   void GetGroundTruthNetworkAtT(const double& Step, PStrFltNEDNet& NetworkAtT);

   void GetInferredGraphAtT(const double& Step, PNGraph &GraphAtT);

   void GetInferredNetworkAtT(const double& Step, PStrFltNEDNet& NetworkAtT);


   // reset/init for optimization

   void Reset();

   void Init(const TFltV& Steps);


   // optimization methods

   void SG(const int& NId, const int& Iters, const TFltV& Steps, const TSampling& Sampling, const TStr& ParamSampling=TStr(""), const bool& PlotPerformance=false);

   void BSG(const int& NId, const int& Iters, const TFltV& Steps, const int& BatchLen, const TSampling& Sampling, const TStr& ParamSampling=TStr(""), const bool& PlotPerformance=false);

   void FG(const int& NId, const int& Iters, const TFltV& Steps);


   // auxiliary function for optimization

   void UpdateDiff(const TOptMethod& OptMethod, const int& NId, TCascade& Cascade, TIntPrV& AlphasToUpdate, const double& CurrentTime=TFlt::Mx);


   // functions to compute burstiness

   void find_C( int t, TFltV &x, TFltVV &C, const int& k, const double& s, const double& gamma, const double& T );

   void find_min_state( TFltVV &C, TIntV &states, const int& k, const double& s, const double& gamma, const double& T );

   void LabelBurstAutomaton(const int& SrcId, const int& DstId, TIntV &state_labels, TFltV &state_times, const bool& inferred=false, const int& k = 5, const double& s = 2.0, const double& gamma = 1.0, const TSecTm& MinTime=TSecTm(), const TSecTm& MaxTime=TSecTm() );


   // function to compute performance for a particular time step and node given groundtruth + inferred network

   void ComputePerformanceNId(const int& NId, const int& Step, const TFltV& Steps);


   // storing ground truth and inferred network in pajek and text format

   void SaveInferredPajek(const TStr& OutFNm, const double& Step, const TIntV& NIdV=TIntV());

   void SaveInferred(const TStr& OutFNm, const TIntV& NIdV=TIntV());

   void SaveInferred(const TStr& OutFNm, const double& Step, const TIntV& NIdV=TIntV());

   void SaveInferredEdges(const TStr& OutFNm);


   // store network

   void SaveGroundTruthPajek(const TStr& OutFNm, const double& Step);

   void SaveGroundTruth(const TStr& OutFNm);


   // storing NodeId, site name

   void SaveSites(const TStr& OutFNm, const TIntFltVH& CascadesPerNode=TIntFltVH());


   // storing cascades in text format

   void SaveCascades(const TStr& OutFNm);

 };


 #endif

TVec::AddUnique
TSizeTy AddUnique(const TVal &Val)
Adds element Val to a vector only if the element Val is not already in the vector.
Definition: ds.h:1104

THitInfo::Keywords
TIntV Keywords
Definition: cascdynetinf.h:72

TNIBs::GetCascs
int GetCascs()
Definition: cascdynetinf.h:210

TNIBs::TNIBs
TNIBs(TSIn &SIn)
Definition: cascdynetinf.h:174

TNIBs::BSG
void BSG(const int &NId, const int &Iters, const TFltV &Steps, const int &BatchLen, const TSampling &Sampling, const TStr &ParamSampling=TStr(""), const bool &PlotPerformance=false)
Definition: cascdynetinf.cpp:501

TNIBs::SaveGroundTruth
void SaveGroundTruth(const TStr &OutFNm)
Definition: cascdynetinf.cpp:1105

OSG
Definition: cascdynetinf.h:28

OWESG
Definition: cascdynetinf.h:31

TCascade::Save
void Save(TSOut &SOut) const
Definition: cascdynetinf.h:94

TNIBs::SaveInferred
void SaveInferred(const TStr &OutFNm, const TIntV &NIdV=TIntV())
Definition: cascdynetinf.cpp:1003

TNIBs::SortNodeNmByVol
void SortNodeNmByVol(const bool &asc=false)
Definition: cascdynetinf.h:219

TNIBs::AddCasc
void AddCasc(const TCascade &Cascade)
Definition: cascdynetinf.h:205

OFG
Definition: cascdynetinf.h:37

TNIBs::GetNodeInfo
TNodeInfo GetNodeInfo(const int &NId) const
Definition: cascdynetinf.h:217

Snap.h

THitInfo::THitInfo
THitInfo(const int &NodeId=-1, const double &HitTime=0)
Definition: cascdynetinf.h:74

TNIBs::SetK
void SetK(const double &k)
Definition: cascdynetinf.h:191

TCascade::operator<
bool operator<(const TCascade &Cascade) const
Definition: cascdynetinf.h:111

TNIBs::SampledCascadesH
TIntIntPrH SampledCascadesH
Definition: cascdynetinf.h:166

TNodeEDatNet::Save
virtual void Save(TSOut &SOut) const
Saves the network to a (binary) stream SOut.
Definition: network.h:594

OBSG
Definition: cascdynetinf.h:33

TNIBs::SaveGroundTruthPajek
void SaveGroundTruthPajek(const TStr &OutFNm, const double &Step)
Definition: cascdynetinf.cpp:1133

TNIBs::SetInitAlpha
void SetInitAlpha(const double &ia)
Definition: cascdynetinf.h:201

TCascade::GetId
int GetId()
Definition: cascdynetinf.h:96

CHAINSAW
Definition: cascdynetinf.h:22

THitInfo::NId
TInt NId
Definition: cascdynetinf.h:70

TNIBs::Mu
TFlt Mu
Definition: cascdynetinf.h:153

TCascade::TCascade
TCascade(TSIn &SIn)
Definition: cascdynetinf.h:93

TCascade::TCascade
TCascade(const int &model)
Definition: cascdynetinf.h:91

THitInfo::DelKeywords
void DelKeywords()
Definition: cascdynetinf.h:77

TNIBs
Definition: cascdynetinf.h:130

TNIBs::TotalTime
TFlt TotalTime
Definition: cascdynetinf.h:147

RANDOM
Definition: cascdynetinf.h:23

TInt::Save
void Save(TSOut &SOut) const
Definition: dt.h:1060

TNIBs::Init
void Init(const TFltV &Steps)
Definition: cascdynetinf.cpp:347

TNIBs::CascH
THash< TInt, TCascade > CascH
Definition: cascdynetinf.h:132

TCascade::EndI
THash< TInt, THitInfo >::TIter EndI() const
Definition: cascdynetinf.h:102

OWBSG
Definition: cascdynetinf.h:34

TCascade::Len
int Len() const
Definition: cascdynetinf.h:97

TNIBs::Network
TStrFltFltHNEDNet Network
Definition: cascdynetinf.h:141

TNIBs::SetMu
void SetMu(const double &mu)
Definition: cascdynetinf.h:197

TNIBs::InferredNetwork
TStrFltFltHNEDNet InferredNetwork
Definition: cascdynetinf.h:158

L2REG
Definition: cascdynetinf.h:51

TNIBs::GetCasc
TCascade & GetCasc(int c)
Definition: cascdynetinf.h:209

TNodeInfo
Definition: cascdynetinf.h:116

TNIBs::MaxAlpha
TFlt MaxAlpha
Definition: cascdynetinf.h:155

TNIBs::AddDomainNm
void AddDomainNm(const TStr &Domain, const int &DomainId=-1)
Definition: cascdynetinf.h:222

TNIBs::LoadInferredNodesTxt
void LoadInferredNodesTxt(TSIn &SIn)
Definition: cascdynetinf.cpp:128

THash::BegI
TIter BegI() const
Definition: hash.h:171

TNIBs::LoadCascadesTxt
void LoadCascadesTxt(TSIn &SIn)
Definition: cascdynetinf.cpp:4

TNIBs::GetNodes
int GetNodes()
Definition: cascdynetinf.h:214

TRunningMode
TRunningMode
Definition: cascdynetinf.h:54

TNIBs::NodeNmH
THash< TInt, TNodeInfo > NodeNmH
Definition: cascdynetinf.h:133

TNIBs::IsDomainNm
bool IsDomainNm(const TStr &Domain) const
Definition: cascdynetinf.h:223

THash::Save
void Save(TSOut &SOut) const
Definition: hash.h:141

SINGLE_STEP
Definition: cascdynetinf.h:58

TModel
TModel
Definition: cascdynetinf.h:7

TNodeInfo::TNodeInfo
TNodeInfo(const TStr &NodeNm, const int &Volume)
Definition: cascdynetinf.h:122

TNIBs::AddCasc
void AddCasc(const TStr &CascStr, const TModel &Model=EXP)
Definition: cascdynetinf.cpp:147

TNIBs::Window
TFlt Window
Definition: cascdynetinf.h:147

TNodeInfo::TNodeInfo
TNodeInfo(TSIn &SIn)
Definition: cascdynetinf.h:123

TNIBs::LoadGroundTruthTxt
void LoadGroundTruthTxt(TSIn &SIn)
Definition: cascdynetinf.cpp:18

PStrFltFltHNEDNet
TPt< TStrFltFltHNEDNet > PStrFltFltHNEDNet
Definition: cascdynetinf.h:62

THitInfo::AddKeyword
void AddKeyword(const int &KId)
Definition: cascdynetinf.h:76

TNodeInfo::Vol
TInt Vol
Definition: cascdynetinf.h:119

LINEAR
Definition: cascdynetinf.h:17

POW
Definition: cascdynetinf.h:9

TCascade
Definition: cascdynetinf.h:84

TCascade::NIdHitH
THash< TInt, THitInfo > NIdHitH
Definition: cascdynetinf.h:87

TNIBs::SetRegularizer
void SetRegularizer(const TRegularizer &reg)
Definition: cascdynetinf.h:196

TNIBs::SetMinAlpha
void SetMinAlpha(const double &ma)
Definition: cascdynetinf.h:200

OWSG
Definition: cascdynetinf.h:29

THash::GetDat
const TDat & GetDat(const TKey &Key) const
Definition: hash.h:220

THash::EndI
TIter EndI() const
Definition: hash.h:176

TCascade::LenAfterT
int LenAfterT(const double &T)
Definition: cascdynetinf.h:99

SLAB
Definition: cascdynetinf.h:20

TNIBs::SetDelta
void SetDelta(const double &delta)
Definition: cascdynetinf.h:190

TNIBs::GetInferredGraphAtT
void GetInferredGraphAtT(const double &Step, PNGraph &GraphAtT)
Definition: cascdynetinf.cpp:311

TNIBs::K
TFlt K
Definition: cascdynetinf.h:150

THitInfo::operator<
bool operator<(const THitInfo &Hit) const
Definition: cascdynetinf.h:79

TFlt::Mx
static const double Mx
Definition: dt.h:1298

TNIBs::AveDiffAlphas
TIntFltH AveDiffAlphas
Definition: cascdynetinf.h:162

TNIBs::SaveInferredPajek
void SaveInferredPajek(const TStr &OutFNm, const double &Step, const TIntV &NIdV=TIntV())
Definition: cascdynetinf.cpp:981

TCascade::GetMinTm
double GetMinTm() const
Definition: cascdynetinf.h:106

TFlt
Definition: dt.h:1293

TNIBs::Delta
TFlt Delta
Definition: cascdynetinf.h:150

TStrFltFltHNEDNet
TNodeEDatNet< TStr, TFltFltH > TStrFltFltHNEDNet
Definition: cascdynetinf.h:61

TSIn
Definition: fl.h:58

TVec::Save
void Save(TSOut &SOut) const
Definition: ds.h:903

TCascade::TCascade
TCascade(const int &cid, const int &model)
Definition: cascdynetinf.h:92

TCascade::Model
TInt Model
Definition: cascdynetinf.h:88

TNIBs::PrecisionRecall
TFltPrV PrecisionRecall
Definition: cascdynetinf.h:169

TCascade::GetTm
double GetTm(const int &NId) const
Definition: cascdynetinf.h:104

TNIBs::MinAlpha
TFlt MinAlpha
Definition: cascdynetinf.h:155

TNIBs::TNIBs
TNIBs()
Definition: cascdynetinf.h:173

THitInfo::THitInfo
THitInfo(TSIn &SIn)
Definition: cascdynetinf.h:75

THash::DelKey
void DelKey(const TKey &Key)
Definition: hash.h:362

TNIBs::Gamma
TFlt Gamma
Definition: cascdynetinf.h:153

TVec::Clr
void Clr(const bool &DoDel=true, const TSizeTy &NoDelLim=-1)
Clears the contents of the vector.
Definition: ds.h:971

TNodeEDatNet< TStr, TFltFltH >

TIntFltVH
THash< TInt, TFltV > TIntFltVH
Definition: hash.h:576

WIN_SAMPLING
Definition: cascdynetinf.h:42

TVVec
Definition: ds.h:2157

RAY_SAMPLING
Definition: cascdynetinf.h:45

TOptMethod
TOptMethod
Definition: cascdynetinf.h:27

TStr::Save
void Save(TSOut &SOut, const bool &IsSmall=false) const
Definition: dt.h:440

UNIF_SAMPLING
Definition: cascdynetinf.h:41

TNIBs::MSE
TFltPrV MSE
Definition: cascdynetinf.h:170

TNodeInfo::TNodeInfo
TNodeInfo()
Definition: cascdynetinf.h:121

TNIBs::SG
void SG(const int &NId, const int &Iters, const TFltV &Steps, const TSampling &Sampling, const TStr &ParamSampling=TStr(""), const bool &PlotPerformance=false)
Definition: cascdynetinf.cpp:381

TCascade::CId
TInt CId
Definition: cascdynetinf.h:86

TCascade::Del
void Del(const int &NId)
Definition: cascdynetinf.h:108

TNIBs::LoadInferredTxt
void LoadInferredTxt(TSIn &SIn)
Definition: cascdynetinf.cpp:83

TNIBs::SetWindow
void SetWindow(const double &window)
Definition: cascdynetinf.h:187

SQUARE
Definition: cascdynetinf.h:21

TNIBs::SetAging
void SetAging(const double &aging)
Definition: cascdynetinf.h:195

THitInfo
Definition: cascdynetinf.h:68

TNIBs::GenCascade
void GenCascade(TCascade &C)
Definition: cascdynetinf.cpp:180

WIN_EXP_SAMPLING
Definition: cascdynetinf.h:44

TNIBs::Save
void Save(TSOut &SOut) const
Definition: cascdynetinf.h:175

THitInfo::Save
void Save(TSOut &SOut) const
Definition: cascdynetinf.h:78

PStrFltNEDNet
TPt< TStrFltNEDNet > PStrFltNEDNet
Definition: cascdynetinf.h:65

TNodeInfo::operator<
bool operator<(const TNodeInfo &NodeInfo) const
Definition: cascdynetinf.h:125

TNIBs::ComputePerformanceNId
void ComputePerformanceNId(const int &NId, const int &Step, const TFltV &Steps)
Definition: cascdynetinf.cpp:918

TNIBs::FG
void FG(const int &NId, const int &Iters, const TFltV &Steps)
Definition: cascdynetinf.cpp:631

TNIBs::DomainsIdH
TStrIntH DomainsIdH
Definition: cascdynetinf.h:134

EXP
Definition: cascdynetinf.h:8

TNIBs::InitAlpha
TFlt InitAlpha
Definition: cascdynetinf.h:155

TNIBs::SaveSites
void SaveSites(const TStr &OutFNm, const TIntFltVH &CascadesPerNode=TIntFltVH())
Definition: cascdynetinf.cpp:1153

TSOut
Definition: fl.h:128

TNIBs::Accuracy
TFltPrV Accuracy
Definition: cascdynetinf.h:170

TNIBs::SaveInferredEdges
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Definition: cascdynetinf.cpp:1073

TNIBs::GetInferredNetworkAtT
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Definition: cascdynetinf.cpp:328

TNIBs::IsNodeNm
bool IsNodeNm(const int &NId) const
Definition: cascdynetinf.h:218

TCascade::Clr
void Clr()
Definition: cascdynetinf.h:95

TNIBs::GetGroundTruthNetworkAtT
void GetGroundTruthNetworkAtT(const double &Step, PStrFltNEDNet &NetworkAtT)
Definition: cascdynetinf.cpp:295

TNIBs::Reset
void Reset()
Definition: cascdynetinf.cpp:370

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Definition: cascdynetinf.h:90

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int GetModel() const
Definition: cascdynetinf.h:103

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Definition: dt.h:1044

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Definition: cascdynetinf.h:50

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int GetCascadeId(const TStr &Cascade)
Definition: cascdynetinf.h:211

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Definition: cascdynetinf.h:11

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void SetTolerance(const double &tol)
Definition: cascdynetinf.h:198

TIME_STEP
Definition: cascdynetinf.h:55

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TStrIntH CascadeIdH
Definition: cascdynetinf.h:135

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TNodeEDatNet< TStr, TFlt > TStrFltNEDNet
Definition: cascdynetinf.h:64

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Definition: tm.h:81

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TFlt Aging
Definition: cascdynetinf.h:153

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Definition: cascdynetinf.h:30

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void UpdateDiff(const TOptMethod &OptMethod, const int &NId, TCascade &Cascade, TIntPrV &AlphasToUpdate, const double &CurrentTime=TFlt::Mx)
Definition: cascdynetinf.cpp:721

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Definition: cascdynetinf.cpp:835

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THash< TInt, THitInfo >::TIter BegI() const
Definition: cascdynetinf.h:101

TCascade::GetMaxTm
double GetMaxTm() const
Definition: cascdynetinf.h:105

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Definition: dt.h:412

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Definition: cascdynetinf.cpp:63

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Definition: cascdynetinf.h:170

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Definition: cascdynetinf.h:36

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Definition: cascdynetinf.h:107

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Definition: cascdynetinf.h:208

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Definition: cascdynetinf.h:154

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Definition: cascdynetinf.h:71

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Definition: cascdynetinf.cpp:886

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Definition: cascdynetinf.h:199

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Definition: cascdynetinf.h:186

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TVec< TInt > TIntV
Definition: ds.h:1529

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Definition: hash.h:319

EXP_SAMPLING
Definition: cascdynetinf.h:43

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Definition: bd.h:196

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int LenBeforeT(const double &T)
Definition: cascdynetinf.h:98

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void SetTotalTime(const float &tt)
Definition: cascdynetinf.h:185

TNIBs::SaveCascades
void SaveCascades(const TStr &OutFNm)
Definition: cascdynetinf.cpp:1168

RAY
Definition: cascdynetinf.h:10

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Definition: cascdynetinf.h:57

TSampling
TSampling
Definition: cascdynetinf.h:40

TCascade::GetNode
int GetNode(const int &i) const
Definition: cascdynetinf.h:100

ORSG
Definition: cascdynetinf.h:32

TNodeInfo::Name
TStr Name
Definition: cascdynetinf.h:118

TNodeInfo::Save
void Save(TSOut &SOut) const
Definition: cascdynetinf.h:124

TNIBs::CascPerEdge
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Definition: cascdynetinf.h:138

INFECTION_STEP
Definition: cascdynetinf.h:56

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bool IsKey(const TKey &Key) const
Definition: hash.h:216

CONSTANT
Definition: cascdynetinf.h:16

OEBSG
Definition: cascdynetinf.h:35

TNIBs::GetNodeNm
TStr GetNodeNm(const int &NId) const
Definition: cascdynetinf.h:216

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int Len() const
Definition: hash.h:186

TNIBs::GetDomainId
int GetDomainId(const TStr &Domain)
Definition: cascdynetinf.h:224

TVarying
TVarying
Definition: cascdynetinf.h:15

TCascade::Sort
void Sort()
Definition: cascdynetinf.h:110

THash::AddDat
TDat & AddDat(const TKey &Key)
Definition: hash.h:196

TNIBs::SetGamma
void SetGamma(const double &gamma)
Definition: cascdynetinf.h:194

TNIBs::AddNodeNm
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Definition: cascdynetinf.h:215

TNIBs::DiffAlphas
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Definition: cascdynetinf.h:163

TFlt::Save
void Save(TSOut &SOut) const
Definition: dt.h:1309

THash::GetKey
const TKey & GetKey(const int &KeyId) const
Definition: hash.h:210

TRegularizer
TRegularizer
Definition: cascdynetinf.h:49

TNIBs::GetGroundTruthGraphAtT
void GetGroundTruthGraphAtT(const double &Step, PNGraph &GraphAtT)
Definition: cascdynetinf.cpp:279

TCascade::IsNode
bool IsNode(const int &NId) const
Definition: cascdynetinf.h:109

TNIBs::find_min_state
void find_min_state(TFltVV &C, TIntV &states, const int &k, const double &s, const double &gamma, const double &T)
Definition: cascdynetinf.cpp:865

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RAYLEIGH
Definition: cascdynetinf.h:19

TNIBs::Model
TModel Model
Definition: cascdynetinf.h:144

TNIBs::Tol
TFlt Tol
Definition: cascdynetinf.h:155

TNodeEDatNet::GetNodes
int GetNodes() const
Returns the number of nodes in the network.
Definition: network.h:605

TNIBs::TotalCascadesAlpha
TIntFltH TotalCascadesAlpha
Definition: cascdynetinf.h:159

THash::SortByDat
void SortByDat(const bool &Asc=true)
Definition: hash.h:250

EXPONENTIAL
Definition: cascdynetinf.h:18