Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
Loading...
Searching...
No Matches
G4CascadeParameters.cc
Go to the documentation of this file.
1//
2// ********************************************************************
3// * License and Disclaimer *
4// * *
5// * The Geant4 software is copyright of the Copyright Holders of *
6// * the Geant4 Collaboration. It is provided under the terms and *
7// * conditions of the Geant4 Software License, included in the file *
8// * LICENSE and available at http://cern.ch/geant4/license . These *
9// * include a list of copyright holders. *
10// * *
11// * Neither the authors of this software system, nor their employing *
12// * institutes,nor the agencies providing financial support for this *
13// * work make any representation or warranty, express or implied, *
14// * regarding this software system or assume any liability for its *
15// * use. Please see the license in the file LICENSE and URL above *
16// * for the full disclaimer and the limitation of liability. *
17// * *
18// * This code implementation is the result of the scientific and *
19// * technical work of the GEANT4 collaboration. *
20// * By using, copying, modifying or distributing the software (or *
21// * any work based on the software) you agree to acknowledge its *
22// * use in resulting scientific publications, and indicate your *
23// * acceptance of all terms of the Geant4 Software license. *
24// ********************************************************************
25//
26// Encapsulate all user-configurable parameters with associated envvars
27//
28// 20120912 M. Kelsey -- Add interface to support UI commands
29// 20130304 M. Kelsey -- Add flag to collect and display cascade structure
30// 20130308 M. Kelsey -- Add flag to use separate 3-body momentum generators
31// 20130421 M. Kelsey -- Add flag for CHECK_ECONS, replacing #ifdef's
32// 20130702 M. Kelsey -- Add flag to use N-body phase-space generator
33// 20140311 G. Cosmo -- Implement standard (non-const) singleton pattern
34// 20140929 M. Kelsey -- Enable some parameters as default true (must be set
35// '0' for false): PreCompound, phase-space, clustering,
36// trailing effect
37// 20141111 M. Kelsey -- Revert defaults for PreCompound, phase-space,
38// and trailing effect.
39// 20141121 Use G4AutoDelete to avoid end-of-thread memory leaks
40// 20141211 M. Kelsey -- Change PIN_ABSORPTION flag to double, for energy cut
41
44#include "G4AutoDelete.hh"
45#include <stdlib.h>
46#include <iostream>
47using std::endl;
48
49#define OLD_RADIUS_UNITS (3.3836/1.2) // Used with NucModel params
50
52namespace {
54 class BERTParameters {
55 public:
56 BERTParameters(){
57 //HDP.SetDefault("NAME",VALUE,LOWER_LIMIT(default=-DBL_MAX),UPPER_LIMIT(default=DBL_MAX));
58 HDP.SetDefault( "BERT_FERMI_SCALE" , 1.932/OLD_RADIUS_UNITS , 1.932/OLD_RADIUS_UNITS/2 , 1.932/OLD_RADIUS_UNITS*2 );
59 HDP.SetDefault( "BERT_RADIUS_SCALE" , OLD_RADIUS_UNITS , OLD_RADIUS_UNITS/2 , OLD_RADIUS_UNITS*2 );
60 HDP.SetDefault( "BERT_RAD_TRAILING" , 0. , 0. , 2. );
61 HDP.SetDefault( "BERT_XSEC_SCALE" , 1.0 , 0.5 , 2. );
62 }
63 };
64 BERTParameters BP;
65}
66
67
68// Singleton accessor
69
70G4CascadeParameters* G4CascadeParameters::fpInstance = 0;
71
73 if (!fpInstance) {
74 fpInstance = new G4CascadeParameters;
75 G4AutoDelete::Register(fpInstance);
76 }
77
78 return fpInstance;
79}
80
81
82// Constructor initializes everything once
83
84//#define OLD_RADIUS_UNITS (3.3836/1.2) // Used with NucModel params
85
86G4CascadeParameters::G4CascadeParameters()
87 : G4CASCADE_VERBOSE(std::getenv("G4CASCADE_VERBOSE")),
88 G4CASCADE_CHECK_ECONS(std::getenv("G4CASCADE_CHECK_ECONS")),
89 G4CASCADE_USE_PRECOMPOUND(std::getenv("G4CASCADE_USE_PRECOMPOUND")),
90 G4CASCADE_DO_COALESCENCE(std::getenv("G4CASCADE_DO_COALESCENCE")),
91 G4CASCADE_SHOW_HISTORY(std::getenv("G4CASCADE_SHOW_HISTORY")),
92 G4CASCADE_USE_3BODYMOM(std::getenv("G4CASCADE_USE_3BODYMOM")),
93 G4CASCADE_USE_PHASESPACE(std::getenv("G4CASCADE_USE_PHASESPACE")),
94 G4CASCADE_PIN_ABSORPTION(std::getenv("G4CASCADE_PIN_ABSORPTION")),
95 G4CASCADE_RANDOM_FILE(std::getenv("G4CASCADE_RANDOM_FILE")),
96 G4NUCMODEL_USE_BEST(std::getenv("G4NUCMODEL_USE_BEST")),
97 G4NUCMODEL_RAD_2PAR(std::getenv("G4NUCMODEL_RAD_2PAR")),
98 G4NUCMODEL_RAD_SCALE(std::getenv("G4NUCMODEL_RAD_SCALE")),
99 G4NUCMODEL_RAD_SMALL(std::getenv("G4NUCMODEL_RAD_SMALL")),
100 G4NUCMODEL_RAD_ALPHA(std::getenv("G4NUCMODEL_RAD_ALPHA")),
101 G4NUCMODEL_RAD_TRAILING(std::getenv("G4NUCMODEL_RAD_TRAILING")),
102 G4NUCMODEL_FERMI_SCALE(std::getenv("G4NUCMODEL_FERMI_SCALE")),
103 G4NUCMODEL_XSEC_SCALE(std::getenv("G4NUCMODEL_XSEC_SCALE")),
104 G4NUCMODEL_GAMMAQD(std::getenv("G4NUCMODEL_GAMMAQD")),
105 DPMAX_2CLUSTER(std::getenv("DPMAX_2CLUSTER")),
106 DPMAX_3CLUSTER(std::getenv("DPMAX_3CLUSTER")),
107 DPMAX_4CLUSTER(std::getenv("DPMAX_4CLUSTER")),
108 messenger(0) {
109 messenger = new G4CascadeParamMessenger(this);
110 Initialize();
111}
112
113void G4CascadeParameters::Initialize() {
114 VERBOSE_LEVEL = (G4CASCADE_VERBOSE ? atoi(G4CASCADE_VERBOSE) : 0);
115 CHECK_ECONS = (0!=G4CASCADE_CHECK_ECONS);
116 USE_PRECOMPOUND = (0!=G4CASCADE_USE_PRECOMPOUND &&
117 G4CASCADE_USE_PRECOMPOUND[0]!='0');
118 DO_COALESCENCE = (0==G4CASCADE_DO_COALESCENCE ||
119 G4CASCADE_DO_COALESCENCE[0]!='0');
120 SHOW_HISTORY = (0!=G4CASCADE_SHOW_HISTORY);
121 USE_3BODYMOM = (0!=G4CASCADE_USE_3BODYMOM);
122 USE_PHASESPACE = (0!=G4CASCADE_USE_PHASESPACE &&
123 G4CASCADE_USE_PHASESPACE[0]!='0');
124 PIN_ABSORPTION = (G4CASCADE_PIN_ABSORPTION ? strtod(G4CASCADE_PIN_ABSORPTION,0)
125 : 0.);
126 RANDOM_FILE = (G4CASCADE_RANDOM_FILE ? G4CASCADE_RANDOM_FILE : "");
127 BEST_PAR = (0!=G4NUCMODEL_USE_BEST);
128 TWOPARAM_RADIUS = (0!=G4NUCMODEL_RAD_2PAR); // && G4NUCMODEL_RAD_2PAR[0]!='0');
129 RADIUS_SCALE = (G4NUCMODEL_RAD_SCALE ? strtod(G4NUCMODEL_RAD_SCALE,0)
130 : (BEST_PAR?1.0:OLD_RADIUS_UNITS));
131 if ( G4NUCMODEL_RAD_SCALE == 0 && BEST_PAR == 0 ) HDP.DeveloperGet("BERT_RADIUS_SCALE",RADIUS_SCALE);
132 RADIUS_SMALL = ((G4NUCMODEL_RAD_SMALL ? strtod(G4NUCMODEL_RAD_SMALL,0)
133 : (BEST_PAR?1.992:(8.0/OLD_RADIUS_UNITS))) * RADIUS_SCALE);
134 RADIUS_ALPHA = (G4NUCMODEL_RAD_ALPHA ? strtod(G4NUCMODEL_RAD_ALPHA,0)
135 : (BEST_PAR?0.84:0.70));
136 RADIUS_TRAILING = ((G4NUCMODEL_RAD_TRAILING ? strtod(G4NUCMODEL_RAD_TRAILING,0)
137 : 0.) * RADIUS_SCALE);
138 if ( G4NUCMODEL_RAD_TRAILING == 0 ) HDP.DeveloperGet("BERT_RAD_TRAILING",RADIUS_TRAILING),RADIUS_TRAILING*=RADIUS_SCALE;
139 FERMI_SCALE = ((G4NUCMODEL_FERMI_SCALE ? strtod(G4NUCMODEL_FERMI_SCALE,0)
140 : (BEST_PAR?0.685:(1.932/OLD_RADIUS_UNITS))) * RADIUS_SCALE);
141 if ( G4NUCMODEL_FERMI_SCALE == 0 && BEST_PAR == 0 ) HDP.DeveloperGet("BERT_FERMI_SCALE",FERMI_SCALE),FERMI_SCALE*=RADIUS_SCALE;
142 XSEC_SCALE = (G4NUCMODEL_XSEC_SCALE ? strtod(G4NUCMODEL_XSEC_SCALE,0)
143 : (BEST_PAR?0.1:1.0) );
144 if ( G4NUCMODEL_XSEC_SCALE == 0 && BEST_PAR == 0 ) HDP.DeveloperGet("BERT_XSEC_SCALE",XSEC_SCALE);
145 GAMMAQD_SCALE = (G4NUCMODEL_GAMMAQD?strtod(G4NUCMODEL_GAMMAQD,0):1.);
146 DPMAX_DOUBLET = (DPMAX_2CLUSTER ? strtod(DPMAX_2CLUSTER,0) : 0.090);
147 DPMAX_TRIPLET = (DPMAX_3CLUSTER ? strtod(DPMAX_3CLUSTER,0) : 0.108);
148 DPMAX_ALPHA = (DPMAX_4CLUSTER ? strtod(DPMAX_4CLUSTER,0) : 0.115);
149}
150
152 delete messenger;
153}
154
155
156// Report any non-default parameters (used by G4CascadeInterface)
157
158void G4CascadeParameters::DumpConfig(std::ostream& os) const {
159 if (G4CASCADE_VERBOSE)
160 os << "G4CASCADE_VERBOSE = " << G4CASCADE_VERBOSE << endl;
161 if (G4CASCADE_CHECK_ECONS)
162 os << "G4CASCADE_CHECK_ECONS = " << G4CASCADE_CHECK_ECONS << endl;
163 if (G4CASCADE_USE_PRECOMPOUND)
164 os << "G4CASCADE_USE_PRECOMPOUND = " << G4CASCADE_USE_PRECOMPOUND << endl;
165 if (G4CASCADE_DO_COALESCENCE)
166 os << "G4CASCADE_DO_COALESCENCE = " << G4CASCADE_DO_COALESCENCE << endl;
167 if (G4CASCADE_PIN_ABSORPTION)
168 os << "G4CASCADE_PIN_ABSORPTION = " << G4CASCADE_PIN_ABSORPTION << endl;
169 if (G4CASCADE_SHOW_HISTORY)
170 os << "G4CASCADE_SHOW_HISTORY = " << G4CASCADE_SHOW_HISTORY << endl;
171 if (G4CASCADE_USE_3BODYMOM)
172 os << "G4CASCADE_USE_3BODYMOM = " << G4CASCADE_USE_3BODYMOM << endl;
173 if (G4CASCADE_USE_PHASESPACE)
174 os << "G4CASCADE_USE_PHASESPACE = " << G4CASCADE_USE_PHASESPACE << endl;
175 if (G4CASCADE_RANDOM_FILE)
176 os << "G4CASCADE_RANDOM_FILE = " << G4CASCADE_RANDOM_FILE << endl;
177 if (G4NUCMODEL_USE_BEST)
178 os << "G4NUCMODEL_USE_BEST = " << G4NUCMODEL_USE_BEST << endl;
179 if (G4NUCMODEL_RAD_2PAR)
180 os << "G4NUCMODEL_RAD_2PAR = " << G4NUCMODEL_RAD_2PAR << endl;
181 if (G4NUCMODEL_RAD_SCALE)
182 os << "G4NUCMODEL_RAD_SCALE = " << G4NUCMODEL_RAD_SCALE << endl;
183 if (G4NUCMODEL_RAD_SMALL)
184 os << "G4NUCMODEL_RAD_SMALL = " << G4NUCMODEL_RAD_SMALL << endl;
185 if (G4NUCMODEL_RAD_ALPHA)
186 os << "G4NUCMODEL_RAD_ALPHA = " << G4NUCMODEL_RAD_ALPHA << endl;
187 if (G4NUCMODEL_RAD_TRAILING)
188 os << "G4NUCMODEL_RAD_TRAILING = " << G4NUCMODEL_RAD_TRAILING << endl;
189 if (G4NUCMODEL_FERMI_SCALE)
190 os << "G4NUCMODEL_FERMI_SCALE = " << G4NUCMODEL_FERMI_SCALE << endl;
191 if (G4NUCMODEL_XSEC_SCALE)
192 os << "G4NUCMODEL_XSEC_SCALE = " << G4NUCMODEL_XSEC_SCALE << endl;
193 if (G4NUCMODEL_GAMMAQD)
194 os << "G4NUCMODEL_GAMMAQD = " << G4NUCMODEL_GAMMAQD << endl;
195 if (DPMAX_2CLUSTER)
196 os << "DPMAX_2CLUSTER = " << DPMAX_2CLUSTER << endl;
197 if (DPMAX_3CLUSTER)
198 os << "DPMAX_3CLUSTER = " << DPMAX_3CLUSTER << endl;
199 if (DPMAX_4CLUSTER)
200 os << "DPMAX_4CLUSTER = " << DPMAX_4CLUSTER << endl;
201}
#define OLD_RADIUS_UNITS
G4HadronicDeveloperParameters & HDP
static const G4CascadeParameters * Instance()
friend class G4CascadeParamMessenger
G4bool DeveloperGet(const std::string name, G4bool &value)
static G4HadronicDeveloperParameters & GetInstance()
G4bool SetDefault(const std::string name, const G4bool value)
void Register(T *inst)
Definition: G4AutoDelete.hh:65