Geant4 9.6.0
Toolkit for the simulation of the passage of particles through matter
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G4IonDEDXHandler.hh
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25//
26//
27//
28// ===========================================================================
29// GEANT4 class header file
30//
31// Class: G4IonDEDXHandler
32//
33// Author: Anton Lechner ([email protected])
34//
35// First implementation: 11. 03. 2009
36//
37// Modifications:
38//
39//
40// Class description:
41// Ion dE/dx table handler.
42//
43// Comments:
44//
45// ===========================================================================
46
47
48#ifndef G4IONDEDXHANDLER_HH
49#define G4IONDEDXHANDLER_HH
50
51#include "globals.hh"
52#include <vector>
53#include <utility>
54#include <list>
55#include <map>
56
58class G4Material;
59class G4PhysicsVector;
60class G4VIonDEDXTable;
62
63
64// #########################################################################
65// # Type definitions for a local cache
66// #########################################################################
67
68 typedef struct CacheValue{
69 G4double energyScaling; // Scaling factor for kinetic energy
70 G4PhysicsVector* dedxVector; // dE/dx vector for current projectile-
71 // material combination
72 G4double lowerEnergyEdge; // Lower energy edge of dE/dx vector
73 G4double upperEnergyEdge; // Upper energy edge of dE/dx vector
74 G4double density; // Material density
76
77
78// #########################################################################
79// # Class G4IonDEDXHandler: Handler class for stopping power tables
80// #########################################################################
81
83
84 public:
87 const G4String& name,
88 G4int maxCacheSize = 5,
89 G4bool splines = true);
91
92 // Function checking the availability of stopping power values for a
93 // given ion-target combination (kinetic energy not considered)
95 const G4ParticleDefinition*, // Projectile (ion)
96 const G4Material*); // Target material
97
98 // Function returning the stopping power of a given material for a
99 // projectile of specified energy
101 const G4ParticleDefinition*, // Projectile (ion)
102 const G4Material*, // Target material
103 G4double); // Kinetic energy of projectile
104
105
106 // Function for building stopping power vectors according to Bragg's
107 // additivity rule
109 const G4ParticleDefinition*, // Projectile (ion)
110 const G4Material*); // Target material
111
112 // Function for building stopping power vectors according to Bragg's
113 // additivity rule
115 G4int atomicNumberIon, // Atomic number of ion
116 const G4Material*); // Target material
117
118 // Function printing stopping powers for a given ion-material combination
119 // within a specified energy range
120 void PrintDEDXTable(
121 const G4ParticleDefinition*, // Projectile (ion)
122 const G4Material* , // Target material
123 G4double, // Minimum energy per nucleon
124 G4double, // Maximum energy per nucleon
125 G4int, // Number of bins
126 G4bool logScaleEnergy = true);// Logarithmic scaling of energy
127
128 // Function returning the lower energy edge of stopping power tables
130 const G4ParticleDefinition*, // Projectile (ion)
131 const G4Material*); // Target material
132
133 // Function returning the upper energy edge of stopping power tables
135 const G4ParticleDefinition*, // Projectile (ion)
136 const G4Material*); // Target material
137
138 // Function for clearing the cache
139 void ClearCache();
140
142
143 private:
144 // The assignment operator and the copy constructor are hidden
145 G4IonDEDXHandler& operator=(const G4IonDEDXHandler &r);
147
148 // ######################################################################
149 // # Stopping power table (table of stopping power vectors either built
150 // # by G4VIonDEDXTable, or by the current class (using the Bragg
151 // # addivity rule)
152 // ######################################################################
153
154 // Class which creates dE/dx vectors
155 G4VIonDEDXTable* table;
156
157 // Algorithm for scaling dE/dx values
159
160 // Name associated with the dE/dx table
161 G4String tableName;
162
163 // Map of all dE/dx vectors
164 typedef std::pair<G4int, const G4Material*> G4IonKey;
165 typedef std::map<G4IonKey, G4PhysicsVector*> DEDXTable;
166 DEDXTable stoppingPowerTable;
167
168 // Map of dE/dx vectors, built according to the Bragg additivity rule
169 typedef std::map<G4IonKey, G4PhysicsVector*> DEDXTableBraggRule;
170 DEDXTableBraggRule stoppingPowerTableBragg;
171
172 // Flag indicating the usage of splines for dE/dx vectors built according
173 // to Bragg rule
174 G4bool useSplines;
175
176 // ######################################################################
177 // # "Most-recently-used" cache, to provide a faster access to physics
178 // # vectors
179 // ######################################################################
180
181 // A type definition of cache entry containing a key-value pair
182 typedef std::pair<const G4ParticleDefinition*, const G4Material*> G4CacheKey;
183 typedef struct CacheEntry {
184 G4CacheKey key;
185 G4CacheValue value;
186 } G4CacheEntry;
187
188 // A cache entry list, and a map of pointers to list iterators (for faster
189 // searching)
190 typedef std::list<G4CacheEntry> CacheEntryList;
191 CacheEntryList cacheEntries;
192
193 typedef std::map<G4CacheKey, void*> CacheIterPointerMap;
194 CacheIterPointerMap cacheKeyPointers;
195
196 // Maximum number of cache entries
197 G4int maxCacheEntries;
198
199 // Function for updating the cache
200 G4CacheValue UpdateCacheValue(
201 const G4ParticleDefinition*, // Projectile (ion)
202 const G4Material*); // Target material
203
204 // Function for retrieving cache values
205 G4CacheValue GetCacheValue(
206 const G4ParticleDefinition*, // Projectile (ion)
207 const G4Material*); // Target material
208};
209
210#endif // G4IONDEDXHANDLER_HH
struct CacheValue G4CacheValue
double G4double
Definition: G4Types.hh:64
int G4int
Definition: G4Types.hh:66
bool G4bool
Definition: G4Types.hh:67
void PrintDEDXTable(const G4ParticleDefinition *, const G4Material *, G4double, G4double, G4int, G4bool logScaleEnergy=true)
G4bool BuildDEDXTable(const G4ParticleDefinition *, const G4Material *)
G4bool IsApplicable(const G4ParticleDefinition *, const G4Material *)
G4double GetLowerEnergyEdge(const G4ParticleDefinition *, const G4Material *)
G4double GetUpperEnergyEdge(const G4ParticleDefinition *, const G4Material *)
G4double GetDEDX(const G4ParticleDefinition *, const G4Material *, G4double)
G4double upperEnergyEdge
G4double lowerEnergyEdge
G4double density
G4PhysicsVector * dedxVector
G4double energyScaling