//FJSTARTHEADER
// $Id: GhostedAreaSpec.cc 4442 2020-05-05 07:50:11Z soyez $
//
// Copyright (c) 2005-2020, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
//
//----------------------------------------------------------------------
// This file is part of FastJet.
//
// FastJet is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// The algorithms that underlie FastJet have required considerable
// development. They are described in the original FastJet paper,
// hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
// FastJet as part of work towards a scientific publication, please
// quote the version you use and include a citation to the manual and
// optionally also to hep-ph/0512210.
//
// FastJet is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with FastJet. If not, see .
//----------------------------------------------------------------------
//FJENDHEADER
#include "fastjet/GhostedAreaSpec.hh"
#include "fastjet/Error.hh"
#include
#include
using namespace std;
FASTJET_BEGIN_NAMESPACE // defined in fastjet/internal/base.hh
BasicRandom GhostedAreaSpec::_random_generator;
LimitedWarning GhostedAreaSpec::_warn_fj2_placement_deprecated;
/// explicit constructor
GhostedAreaSpec::GhostedAreaSpec(
const Selector & selector,
int repeat_in ,
double ghost_area_in ,
double grid_scatter_in ,
double pt_scatter_in ,
double mean_ghost_pt_in
):
_repeat(repeat_in),
_ghost_area(ghost_area_in),
_grid_scatter(grid_scatter_in),
_pt_scatter(pt_scatter_in),
_mean_ghost_pt(mean_ghost_pt_in),
_fj2_placement(false),
_selector(selector),
_actual_ghost_area(-1.0)
{
// check the selector has the properties needed -- an area and
// applicability jet-by-jet (the latter follows automatically from
// the former?)
if (!_selector.has_finite_area()) throw Error("To construct a GhostedAreaSpec with a Selector, the selector must have a finite area");
if (!_selector.applies_jet_by_jet()) throw Error("To construct a GhostedAreaSpec with a Selector, the selector must apply jet-by-jet");
// get the internal rapidity extent from the selector
double ghost_maxrap_local, ghost_minrap_local;
_selector.get_rapidity_extent(ghost_minrap_local, ghost_maxrap_local);
_ghost_maxrap = 0.5*(ghost_maxrap_local - ghost_minrap_local);
_ghost_rap_offset = 0.5*(ghost_maxrap_local + ghost_minrap_local);
_initialize();
}
//======================================================================
// sets fj2 ghost placement
void GhostedAreaSpec::set_fj2_placement(bool val) {
_fj2_placement = val; _initialize();
if (val) _warn_fj2_placement_deprecated.warn("FJ2 placement of ghosts can lead to systematic edge effects in area evaluation and is deprecated. Prefer new (default) FJ3 placement.");
}
//======================================================================
/// sets the detailed parameters for the ghosts (which may not be quite
/// the same as those requested -- this is in order for things to fit
/// in nicely into 2pi etc...
void GhostedAreaSpec::_initialize() {
// add on area-measuring dummy particles
_drap = sqrt(_ghost_area);
_dphi = _drap;
if (_fj2_placement) {
_nphi = int(ceil(twopi/_dphi)); _dphi = twopi/_nphi;
_nrap = int(ceil(_ghost_maxrap/_drap)); _drap = _ghost_maxrap / _nrap;
_actual_ghost_area = _dphi * _drap;
_n_ghosts = (2*_nrap+1)*_nphi;
} else {
// for FJ3, update the ghost placement as follows
// - use nearest int rather than ceiling in determining number of
// phi and rapidity locations, because this is more stable when
// the user is trying to get an exact number based on the area
// - rather than placing ghosts up to maximum rapidity
_nphi = int(twopi/_dphi + 0.5); _dphi = twopi/_nphi;
_nrap = int(_ghost_maxrap/_drap + 0.5); _drap = _ghost_maxrap / _nrap;
_actual_ghost_area = _dphi * _drap;
_n_ghosts = (2*_nrap)*_nphi;
}
// checkpoint the status of the random number generator.
checkpoint_random();
//_random_generator.info(cerr);
}
//----------------------------------------------------------------------
/// adds the ghost 4-momenta to the vector of PseudoJet's
void GhostedAreaSpec::add_ghosts(vector & event) const {
double rap_offset;
int nrap_upper;
if (_fj2_placement) {
rap_offset = 0.0;
nrap_upper = _nrap;
} else {
rap_offset = 0.5;
nrap_upper = _nrap-1;
}
// add momenta for ghosts
for (int irap = -_nrap; irap <= nrap_upper; irap++) {
for (int iphi = 0; iphi < _nphi; iphi++) {
// include random offsets for all quantities
//----------------------------------------------
// NB: in FJ2 we'd exchanged the px and py components relative to a
// standard definition of phi; to preserve the same areas as fj2
// we now generate a "phi_fj2", and then convert to a standard phi
double phi_fj2 = (iphi+0.5) * _dphi + _dphi*(_our_rand()-0.5)*_grid_scatter;
double phi;
if (_fj2_placement) phi = 0.5*pi - phi_fj2;
else phi = phi_fj2;
double rap = (irap+rap_offset) * _drap + _drap*(_our_rand()-0.5)*_grid_scatter
+ _ghost_rap_offset ;
double pt = _mean_ghost_pt*(1+(_our_rand()-0.5)*_pt_scatter);
double exprap = exp(+rap);
double pminus = pt/exprap;
double pplus = pt*exprap;
double px = pt*cos(phi);
double py = pt*sin(phi);
PseudoJet mom(px,py,0.5*(pplus-pminus),0.5*(pplus+pminus));
// this call fills in the PseudoJet's cached rap,phi information,
// based on pre-existing knowledge. Watch out: if you get the hint
// wrong nobody will tell you, but you will certainly mess up
// your results.
mom.set_cached_rap_phi(rap,phi);
// if we have an active selector and the particle does not pass the
// selection condition, move on to the next momentum
if (_selector.worker().get() && !_selector.pass(mom)) continue;
event.push_back(mom);
}
}
}
string GhostedAreaSpec::description() const {
ostringstream ostr;
ostr << "ghosts of area " << actual_ghost_area()
<< " (had requested " << ghost_area() << ")";
if (_selector.worker().get())
ostr << ", placed according to selector (" << _selector.description() << ")";
else
ostr << ", placed up to y = " << ghost_maxrap() ;
ostr << ", scattered wrt to perfect grid by (rel) " << grid_scatter()
<< ", mean_ghost_pt = " << mean_ghost_pt()
<< ", rel pt_scatter = " << pt_scatter()
<< ", n repetitions of ghost distributions = " << repeat();
return ostr.str();
}
FASTJET_END_NAMESPACE