G4H1Messenger.cc

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// Author: Ivana Hrivnacova, 24/06/2013  ([email protected])
//
// This messenger class is a generalization of the HistoMessenger class,
// originally developed for the extended/electromagnetic examples
// by Michel Maire ([email protected])
 
#include "G4H1Messenger.hh"
#include "G4VAnalysisManager.hh"
#include "G4AnalysisUtilities.hh"
#include "G4AnalysisMessengerHelper.hh"
 
#include "G4UIdirectory.hh"
#include "G4UIcommand.hh"
#include "G4UIparameter.hh"
#include "G4Tokenizer.hh"
 
#include <iostream>
#include <vector>
 
using namespace G4Analysis;
 
//_____________________________________________________________________________
G4H1Messenger::G4H1Messenger(G4VAnalysisManager* manager)
  : G4UImessenger(),
    fManager(manager),
    fHelper(nullptr),
    fDirectory(nullptr),
    fCreateH1Cmd(nullptr),
    fSetH1Cmd(nullptr),
    fSetH1TitleCmd(nullptr), 
    fSetH1XAxisCmd(nullptr), 
    fSetH1YAxisCmd(nullptr)
{  
  fHelper = G4Analysis::make_unique<G4AnalysisMessengerHelper>("h1");
 
  fDirectory = fHelper->CreateHnDirectory();
 
  CreateH1Cmd();
 
  SetH1Cmd();
  fSetH1XCmd = fHelper->CreateSetBinsCommand("x", this);
 
 
  fSetH1TitleCmd = fHelper->CreateSetTitleCommand(this);
  fSetH1XAxisCmd = fHelper->CreateSetAxisCommand("x", this);
  fSetH1YAxisCmd = fHelper->CreateSetAxisCommand("y", this);
  fSetH1XAxisLogCmd = fHelper->CreateSetAxisLogCommand("x", this);
  fSetH1YAxisLogCmd = fHelper->CreateSetAxisLogCommand("y", this);
}
 
//_____________________________________________________________________________
G4H1Messenger::~G4H1Messenger()
{}
 
//
// private functions
//
 
//_____________________________________________________________________________
void G4H1Messenger::CreateH1Cmd()
{
  auto h1Name = new G4UIparameter("name", 's', false);
  h1Name->SetGuidance("Histogram name (label)");
  
  auto h1Title = new G4UIparameter("title", 's', false);
  h1Title->SetGuidance("Histogram title");
 
  auto h1Nbins0 = new G4UIparameter("nbins0", 'i', true);
  h1Nbins0->SetGuidance("Number of bins (default = 100)");
  h1Nbins0->SetGuidance("Can be reset with /analysis/h1/set command");
  h1Nbins0->SetDefaultValue(100);
  
  auto h1ValMin0 = new G4UIparameter("valMin0", 'd', true);
  h1ValMin0->SetGuidance("Minimum value, expressed in unit (default = 0.)");
  h1ValMin0->SetGuidance("Can be reset with /analysis/h1/set command");
  h1ValMin0->SetDefaultValue(0.);
  
  auto h1ValMax0 = new G4UIparameter("valMax0", 'd', true);
  h1ValMax0->SetGuidance("Maximum value, expressed in unit (default = 1.)");
  h1ValMax0->SetGuidance("Can be reset with /analysis/h1/set command");
  h1ValMax0->SetDefaultValue(1.);
 
  auto h1ValUnit0 = new G4UIparameter("valUnit0", 's', true);
  h1ValUnit0->SetGuidance("The unit applied to filled values and valMin0, valMax0");
  h1ValUnit0->SetDefaultValue("none");
  
  auto h1ValFcn0 = new G4UIparameter("valFcn0", 's', true);
  G4String fcnGuidance = "The function applied to filled values (log, log10, exp).\n";
  fcnGuidance += "Note that the unit parameter cannot be omitted in this case,\n";
  fcnGuidance += "but none value should be used instead.";
  h1ValFcn0->SetGuidance(fcnGuidance);
  h1ValFcn0->SetParameterCandidates("log log10 exp none");
  h1ValFcn0->SetDefaultValue("none");
  
  auto h1ValBinScheme0 = new G4UIparameter("valBinScheme0", 's', true);
  G4String binSchemeGuidance = "The binning scheme (linear, log).\n";
  h1ValBinScheme0->SetParameterCandidates("linear log");
  binSchemeGuidance 
    += "Note that the unit and fcn parameters cannot be omitted in this case,\n";
  binSchemeGuidance += "but none value should be used instead.";
  h1ValBinScheme0->SetGuidance(binSchemeGuidance);
  h1ValBinScheme0->SetDefaultValue("linear");
  
  fCreateH1Cmd = G4Analysis::make_unique<G4UIcommand>("/analysis/h1/create", this);
  fCreateH1Cmd->SetGuidance("Create 1D histogram");
  fCreateH1Cmd->SetParameter(h1Name);
  fCreateH1Cmd->SetParameter(h1Title);
  fCreateH1Cmd->SetParameter(h1Nbins0);
  fCreateH1Cmd->SetParameter(h1ValMin0);
  fCreateH1Cmd->SetParameter(h1ValMax0);
  fCreateH1Cmd->SetParameter(h1ValUnit0);
  fCreateH1Cmd->SetParameter(h1ValFcn0);
  fCreateH1Cmd->SetParameter(h1ValBinScheme0);
  fCreateH1Cmd->AvailableForStates(G4State_PreInit, G4State_Idle);
}  
 
 
//_____________________________________________________________________________
void G4H1Messenger::SetH1Cmd()
{
  auto h1Id = new G4UIparameter("id", 'i', false);
  h1Id->SetGuidance("Histogram id");
  h1Id->SetParameterRange("id>=0");
  
  auto h1Nbins = new G4UIparameter("nbins", 'i', false);
  h1Nbins->SetGuidance("Number of bins");
  
  auto h1ValMin = new G4UIparameter("valMin", 'd', false);
  h1ValMin->SetGuidance("Minimum value, expressed in unit");
  
  auto h1ValMax = new G4UIparameter("valMax", 'd', false);
  h1ValMax->SetGuidance("Maximum value, expressed in unit");
  
  auto h1ValUnit = new G4UIparameter("valUnit", 's', true);
  h1ValUnit->SetGuidance("The unit applied to filled values and valMin, valMax");
  h1ValUnit->SetDefaultValue("none");
 
  auto h1ValFcn = new G4UIparameter("valFcn", 's', true);
  h1ValFcn->SetParameterCandidates("log log10 exp none");
  G4String fcnGuidance = "The function applied to filled values (log, log10, exp, none).\n";
  fcnGuidance += "Note that the unit parameter cannot be omitted in this case,\n";
  fcnGuidance += "but none value should be used instead.";
  h1ValFcn->SetGuidance(fcnGuidance);
  h1ValFcn->SetDefaultValue("none");
 
  auto h1ValBinScheme = new G4UIparameter("valBinScheme", 's', true);
  h1ValBinScheme->SetParameterCandidates("linear log");
  G4String binSchemeGuidance = "The binning scheme (linear, log).\n";
  binSchemeGuidance 
    += "Note that the unit and fcn parameters cannot be omitted in this case,\n";
  binSchemeGuidance += "but none value should be used instead.";
  h1ValBinScheme->SetGuidance(binSchemeGuidance);
  h1ValBinScheme->SetDefaultValue("linear");
 
  fSetH1Cmd = G4Analysis::make_unique<G4UIcommand>("/analysis/h1/set", this);
  fSetH1Cmd->SetGuidance("Set parameters for the 1D histogram of given id:");
  fSetH1Cmd->SetGuidance("  nbins; valMin; valMax; unit; function; binScheme");
  fSetH1Cmd->SetParameter(h1Id);
  fSetH1Cmd->SetParameter(h1Nbins);
  fSetH1Cmd->SetParameter(h1ValMin);
  fSetH1Cmd->SetParameter(h1ValMax);
  fSetH1Cmd->SetParameter(h1ValUnit);
  fSetH1Cmd->SetParameter(h1ValFcn);
  fSetH1Cmd->SetParameter(h1ValBinScheme);
  fSetH1Cmd->AvailableForStates(G4State_PreInit, G4State_Idle);
}  
 
//
// public functions
//
 
//_____________________________________________________________________________
void G4H1Messenger::SetNewValue(G4UIcommand* command, G4String newValues)
{
  // tokenize parameters in a vector
  std::vector<G4String> parameters;
  G4Analysis::Tokenize(newValues, parameters);
  // check consistency
  if ( parameters.size() != command->GetParameterEntries() ) {
    // Should never happen but let's check anyway for consistency
    fHelper->WarnAboutParameters(command, parameters.size());
    return;
  }  
 
  if ( command == fCreateH1Cmd.get() ) { 
    auto counter = 0;
    auto name = parameters[counter++];
    auto title = parameters[counter++];
    G4AnalysisMessengerHelper::BinData xdata;
    fHelper->GetBinData(xdata, parameters, counter);
    auto unit = GetUnitValue(xdata.fSunit);
    fManager->CreateH1(name, title, 
                       xdata.fNbins, xdata.fVmin*unit, xdata.fVmax*unit, 
                       xdata.fSunit, xdata.fSfcn, xdata.fSbinScheme); 
  }
  else if ( command == fSetH1Cmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]);
    G4AnalysisMessengerHelper::BinData xdata;
    fHelper->GetBinData(xdata, parameters, counter);
    auto unit = GetUnitValue(xdata.fSunit);
    fManager->SetH1(id, 
                    xdata.fNbins, xdata.fVmin*unit, xdata.fVmax*unit, 
                    xdata.fSunit, xdata.fSfcn, xdata.fSbinScheme); 
  }
  else if ( command == fSetH1XCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]);
    G4AnalysisMessengerHelper::BinData xdata;
    fHelper->GetBinData(xdata, parameters, counter);
    auto unit = GetUnitValue(xdata.fSunit);
    fManager->SetH1(id, 
                    xdata.fNbins, xdata.fVmin*unit, xdata.fVmax*unit, 
                    xdata.fSunit, xdata.fSfcn, xdata.fSbinScheme); 
  }
  else if ( command == fSetH1TitleCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]); 
    auto title = parameters[counter++];
    fManager->SetH1Title(id, title);     
  }
  else if ( command == fSetH1XAxisCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]); 
    auto xaxis = parameters[counter++];
    fManager->SetH1XAxisTitle(id, xaxis);     
  }
  else if ( command == fSetH1YAxisCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]); 
    auto yaxis = parameters[counter++];
    fManager->SetH1YAxisTitle(id, yaxis);     
  }
  else if ( command == fSetH1XAxisLogCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]);
    auto xaxisLog = G4UIcommand::ConvertToBool(parameters[counter++]);
    fManager->SetH1XAxisIsLog(id, xaxisLog);
  }
  else if ( command == fSetH1YAxisLogCmd.get() ) {
    auto counter = 0;
    auto id = G4UIcommand::ConvertToInt(parameters[counter++]);
    auto yaxisLog = G4UIcommand::ConvertToBool(parameters[counter++]);
    fManager->SetH1YAxisIsLog(id, yaxisLog);
  }
}