Esempi in C++ (Cpp) per Data_Reader::SetAddCommandLine

Linguaggio di programmazione: C++ (Cpp)

Classe/tipologia: Data_Reader

Metodo/funzione: SetAddCommandLine

Esempi su hotexamples.com: 2

Data_Reader::SetAddCommandLine in C++ (Cpp): 2 esempi trovati. Questi sono i migliori esempi reali in C++ (Cpp) per Data_Reader::SetAddCommandLine, estratti da progetti open source. Li puoi valutare, per aiutarci a migliorare la qualità dei nostri esempi.

Metodi utilizzati di frequente

Mostra Nascondi

read(18)

remain(12)

SetInputFile(6)

AddWordSeparator(6)

SetInputPath(6)

skip(5)

MatrixFromFile(5)

AddComment(4)

SetAddCommandLine(2)

AddIgnore(1)

SetFileBegin(1)

SetFileEnd(1)

RereadInFile(1)

ReadFromFile(1)

VectorFromFile(1)

OpenInFile(1)

InputFile(1)

Esempio n. 1

Mostra file

File: Hard_Decay_Handler.C Progetto: pmillet/sherpa

void Hard_Decay_Handler::ReadDecayTable(Flavour decayer)
{
  DEBUG_FUNC(decayer);
  if (!m_store_results) return;
  Data_Reader reader = Data_Reader("|",";","!");
  reader.SetAddCommandLine(false);
  reader.AddComment("#");
  reader.AddComment("//");
  reader.AddWordSeparator("\t");
  reader.SetInputPath(m_resultdir);
  reader.SetInputFile(decayer.ShellName());
  
  vector<vector<string> > file;
  if(reader.MatrixFromFile(file)) {
    for (size_t iline=0; iline<file.size(); ++iline) {
      if (file[iline].size()==4) {
        string decaychannel=file[iline][0];
        vector<double> results(3);
        for (size_t i=0; i<3; ++i) results[i]=ToType<double>(file[iline][i+1]);
        m_read[decayer].insert(make_pair(decaychannel, results));
      }
      else {
        PRINT_INFO("Wrong format in decay table in "<<m_resultdir);
      }
    }
  }
}

Esempio n. 2

Mostra file

File: FeynRules_Model.C Progetto: ktf/sherpa

void FeynRules_Model::ParticleInit() {
  m_partfile = p_dataread->GetValue<string>("FR_PARTICLES",std::string("Particle.dat"));
  Data_Reader reader = Data_Reader(" ",";","!","=");
  p_dataread->AddComment("#");
  reader.AddWordSeparator("\t");
  reader.SetAddCommandLine(false);
  reader.SetInputPath(m_dir);
  reader.SetInputFile(m_partfile);
  
  kf_code kfc;
  int     charge,icharge,spin,strong,Majorana;
  bool    Take,stable,massive;
  double  mass,width;
  std::string idname, texname;
  
  if (!reader.OpenInFile()) {
    msg_Error()<<METHOD<<"(): FeynRules particle data file '"
	       <<m_partfile<<"' not found."<<std::endl;
    return;
  }
  std::vector<std::vector<std::string> > helpsvv;
  reader.MatrixFromFile(helpsvv);
  for(size_t i(1);i<helpsvv.size();++i) {
    if (helpsvv[i].size()!=13) {
      msg_Error()<<METHOD<<"(): Inconsistent entry in line "<<i
  		 <<" of '"<<reader.InputFile()<<"'."<<std::endl;
      continue;
    }

    if (helpsvv[i][0]==std::string("kf")) continue;

    kfc=ToType<int>(helpsvv[i][0]); 
    mass=ToType<double>(helpsvv[i][1]); width=ToType<double>(helpsvv[i][2]);
    charge=ToType<int>(helpsvv[i][3]); icharge=ToType<int>(helpsvv[i][4]);
    strong=ToType<int>(helpsvv[i][5]); spin=ToType<int>(helpsvv[i][6]);
    Majorana=ToType<int>(helpsvv[i][7]); Take=ToType<int>(helpsvv[i][8]);
    stable=ToType<int>(helpsvv[i][9]); massive=ToType<int>(helpsvv[i][10]);
    idname=helpsvv[i][11]; texname=helpsvv[i][12];
    s_kftable[kfc] = new Particle_Info(kfc,mass,width,charge,icharge,strong,spin,
				       Majorana,Take,stable,massive,idname,texname);
  }
  ReadParticleData();
  
  // add containers
  s_kftable[kf_none] = new
    Particle_Info(kf_none,-1,0,0,0,0,0,-1,0,1,0,"no_particle","no particle",0,1);
  s_kftable[kf_resummed] = new
    Particle_Info(kf_resummed,0.,0.,0,0,1,2,0,1,1,0,"r","resummed",0,1);
  s_kftable[kf_bjet] = new
    Particle_Info(kf_bjet,0.,0.,0,0,1,2,0,1,1,0,"bj","bjet",0,1);

  s_kftable[kf_fermion] = new
    Particle_Info(kf_fermion,0.,0., 0,0,0,1,0,1,1,0,"fermion","fermion",0,1);
  s_kftable[kf_jet] = new
    Particle_Info(kf_jet,0.,0.,0,0,1, 2,0,1,1,0,"j","jet",0,1);
  s_kftable[kf_quark] = new
    Particle_Info(kf_quark,0.,0.,0, 0,1,1,0,1,1,0,"Q","Quark",0,1);
  s_kftable[kf_lepton] = new
    Particle_Info(kf_lepton,0.,0.,-3,-1,0,1,0,1,1,0,"lepton","lepton",0,1);
  s_kftable[kf_neutrino] = new
    Particle_Info(kf_neutrino,0.,0.,0,1,0, 1,0,1,1,0,"neutrino","neutrino",0,1);
  s_kftable[kf_fermion]->Clear();
  s_kftable[kf_jet]->Clear();
  s_kftable[kf_resummed]->Clear();
  s_kftable[kf_resummed]->m_resummed=true;
  s_kftable[kf_quark]->Clear();
  s_kftable[kf_lepton]->Clear();
  s_kftable[kf_neutrino]->Clear();
  for (int i=1;i<7;i++) {
    Flavour addit((kf_code)i);
    if (addit.Mass()==0.0 || (!addit.IsMassive() && addit.IsOn())) {
      s_kftable[kf_jet]->Add(addit);
      s_kftable[kf_jet]->Add(addit.Bar());
      s_kftable[kf_quark]->Add(addit);
      s_kftable[kf_quark]->Add(addit.Bar());
      s_kftable[kf_fermion]->Add(addit);
      s_kftable[kf_fermion]->Add(addit.Bar());
    }
  }
  s_kftable[kf_jet]->Add(Flavour(kf_gluon));
  s_kftable[kf_jet]->SetResummed();
  for (int i=11;i<17;i+=2) {
    Flavour addit((kf_code)i);
    if (addit.Mass()==0.0 || (!addit.IsMassive() && addit.IsOn())) {
      s_kftable[kf_lepton]->Add(addit);
      s_kftable[kf_lepton]->Add(addit.Bar());
      s_kftable[kf_fermion]->Add(addit);
      s_kftable[kf_fermion]->Add(addit.Bar());
    }
  }
  for (int i=12;i<18;i+=2) {
    Flavour addit((kf_code)i);
    if (addit.Mass()==0.0 && addit.IsOn()) {
      s_kftable[kf_neutrino]->Add(addit);
      s_kftable[kf_neutrino]->Add(addit.Bar());
      s_kftable[kf_fermion]->Add(addit);
      s_kftable[kf_fermion]->Add(addit.Bar());
    }
  }
}