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Changeset 21eab4f in git for readers/DelphesPythia8.cpp


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Timestamp:
Aug 26, 2016, 5:17:14 PM (8 years ago)
Author:
GitHub <noreply@…>
Parents:
ec5e04b (diff), 94cacb6 (diff)
Note: this is a merge changeset, the changes displayed below correspond to the merge itself.
Use the (diff) links above to see all the changes relative to each parent.
git-author:
AlexandreMertens <alexandre.mertens@…> (08/26/16 17:17:14)
git-committer:
GitHub <noreply@…> (08/26/16 17:17:14)
Message:

Merge 94cacb6ab322f96b75a06369dfd9b7389d0d6802 into ec5e04b014990ea45a8708f4f726b6b214cdb82b

File:
1 edited

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  • readers/DelphesPythia8.cpp

    rec5e04b r21eab4f  
    153153// from pythia8 example 21
    154154
    155 void fillParticle(int id, double ee_max, double thetaIn, double phiIn,
    156   Pythia8::Event& event, Pythia8::ParticleData& pdt, Pythia8::Rndm& rndm, bool atRest = false) {
    157 
     155void fillParticle(int id, double pt_max, double eta_max,
     156  Pythia8::Event &event, Pythia8::ParticleData &pdt, Pythia8::Rndm &rndm)
     157{
    158158  // Reset event record to allow for new event.
    159159  event.reset();
    160160
    161   // Angles uniform in solid angle.
    162   double cThe, sThe, phi, ee;
    163   cThe = 2. * rndm.flat() - 1.;
    164   sThe = Pythia8::sqrtpos(1. - cThe * cThe);
    165   phi = 2. * M_PI * rndm.flat();
    166   ee = pow(10,1+(log10(ee_max)-1)*rndm.flat());
    167   double mm = pdt.mSel(id);
    168   double pp = Pythia8::sqrtpos(ee*ee - mm*mm);
     161  // Generate uniform pt and eta.
     162  double pt, eta, phi, pp, ee, mm;
     163  pt = pow(10, 1.0 + (log10(pt_max) - 1.0) * rndm.flat());
     164  eta = (2.0 * rndm.flat() - 1.0) * eta_max;
     165  phi = 2.0 * M_PI * rndm.flat();
     166  pp = pt * cosh(eta);
     167  mm = pdt.mSel(id);
     168  ee = Pythia8::sqrtpos(pp*pp + mm*mm);
    169169
    170170  // Store the particle in the event record.
    171   event.append( id, 1, 0, 0, pp * sThe * cos(phi), pp * sThe * sin(phi), pp * cThe, ee, mm);
    172 
     171  event.append(id, 1, 0, 0, pt * cos(phi), pt * sin(phi), pt * sinh(eta), ee, mm);
    173172}
    174173
    175 void fillPartons(int type, double ee_max, Pythia8::Event& event, Pythia8::ParticleData& pdt,
    176   Pythia8::Rndm& rndm) {
     174void fillPartons(int id, double pt_max, double eta_max,
     175  Pythia8::Event &event, Pythia8::ParticleData &pdt, Pythia8::Rndm &rndm)
     176{
    177177
    178178  // Reset event record to allow for new event.
    179179  event.reset();
    180180
    181   // Angles uniform in solid angle.
    182   double cThe, sThe, phi, ee;
    183 
    184181  // Information on a q qbar system, to be hadronized.
    185182
    186   cThe = 2. * rndm.flat() - 1.;
    187   sThe = Pythia8::sqrtpos(1. - cThe * cThe);
    188   phi = 2. * M_PI * rndm.flat();
    189   ee = pow(10,1+(log10(ee_max)-1)*rndm.flat());
    190   double mm = pdt.m0(type);
    191   double pp = Pythia8::sqrtpos(ee*ee - mm*mm);
    192   if (type == 21)
    193   {
    194     event.append( 21, 23, 101, 102, pp * sThe * cos(phi), pp * sThe * sin(phi), pp * cThe, ee);
    195     event.append( 21, 23, 102, 101, -pp * sThe * cos(phi), -pp * sThe * sin(phi), -pp * cThe, ee);
     183  // Generate uniform pt and eta.
     184  double pt, eta, phi, pp, ee, mm;
     185  pt = pow(10, 1.0 + (log10(pt_max) - 1.0) * rndm.flat());
     186  eta = (2.0 * rndm.flat() - 1.0) * eta_max;
     187  phi = 2.0 * M_PI * rndm.flat();
     188  pp = pt * cosh(eta);
     189  mm = pdt.m0(id);
     190  ee = Pythia8::sqrtpos(pp*pp + mm*mm);
     191
     192  if(id == 21)
     193  {
     194    event.append(21, 23, 101, 102, pt * cos(phi), pt * sin(phi), pt * sinh(eta), ee);
     195    event.append(21, 23, 102, 101, -pt * cos(phi), -pt * sin(phi), -pt * sinh(eta), ee);
    196196  }
    197197  else
    198198  {
    199     event.append(  type, 23, 101,   0, pp * sThe * cos(phi), pp * sThe * sin(phi), pp * cThe, ee, mm);
    200     event.append( -type, 23,   0, 101, -pp * sThe * cos(phi), -pp * sThe * sin(phi), -pp * cThe, ee, mm);
     199    event.append(id, 23, 101, 0, pt * cos(phi), pt * sin(phi), pt * sinh(eta), ee, mm);
     200    event.append(-id, 23, 0, 101, -pt * cos(phi), -pt * sin(phi), -pt * sinh(eta), ee, mm);
    201201  }
    202202}
     
    338338      if (pythia->flag("Main:spareFlag1"))
    339339      {
    340         if (pythia->mode("Main:spareMode1") == 11 || pythia->mode("Main:spareMode1") == 13 || pythia->mode("Main:spareMode1") == 22)
     340        if (pythia->mode("Main:spareMode1") == 11 || pythia->mode("Main:spareMode1") == 13 || pythia->mode("Main:spareMode1") == 15 || pythia->mode("Main:spareMode1") == 22)
    341341        {
    342           fillParticle( pythia->mode("Main:spareMode1"), pythia->parm("Main:spareParm1"), -1., 0.,pythia->event, pythia->particleData, pythia->rndm, 0);
     342          fillParticle(pythia->mode("Main:spareMode1"), pythia->parm("Main:spareParm1"), pythia->parm("Main:spareParm2"), pythia->event, pythia->particleData, pythia->rndm);
    343343        }
    344         else fillPartons( pythia->mode("Main:spareMode1"), pythia->parm("Main:spareParm1"), pythia->event, pythia->particleData, pythia->rndm);
     344        else
     345        {
     346          fillPartons(pythia->mode("Main:spareMode1"), pythia->parm("Main:spareParm1"), pythia->parm("Main:spareParm2"), pythia->event, pythia->particleData, pythia->rndm);
     347        }
    345348      }
    346349
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