Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4SmartFilter.hh
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1//
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25//
26//
27// Filter with additional funcionality such as active and inverted states,
28// and filtering statistics
29//
30// Jane Tinslay, March 2006
31//
32#ifndef G4SMARTFILTER_HH
33#define G4SMARTFILTER_HH
34
35#include "G4VFilter.hh"
36
37template <typename T>
38class G4SmartFilter : public G4VFilter<T> {
39
40public: // With description
41
42 // Construct with filter name
43 G4SmartFilter(const G4String& name);
44
45 virtual ~G4SmartFilter();
46
47 // Evaluate method implemented in subclass
48 virtual G4bool Evaluate(const T&) const = 0;
49
50 // Print subclass configuration
51 virtual void Print(std::ostream& ostr) const = 0;
52
53 // Clear filter
54 virtual void Clear() = 0;
55
56 // Filter method
57 G4bool Accept(const T&) const;
58
59 // Print G4SmartFilter configuration
60 virtual void PrintAll(std::ostream& ostr) const;
61
62 //Reset
63 virtual void Reset();
64
65 // Activate/deactivate filter
66 void SetActive(const G4bool&);
68
69 // Invert filter
70 void SetInvert(const G4bool&);
72
73 // Set verbosity
74 void SetVerbose(const G4bool&);
76
77
78private:
79
80 // Data members
81 G4bool fActive;
82 G4bool fInvert;
83 G4bool fVerbose;
84 mutable size_t fNPassed;
85 mutable size_t fNProcessed;
86
87};
88
89template <typename T>
91 :G4VFilter<T>(name)
92 ,fActive(true)
93 ,fInvert(false)
94 ,fVerbose(false)
95 ,fNPassed(0)
96 ,fNProcessed(0)
97{}
98
99template <typename T>
101
102template <typename T>
103G4bool
104G4SmartFilter<T>::Accept(const T& object) const
105{
106 if (fVerbose) {
107 G4cout<<"Begin verbose printout for filter "<<G4VFilter<T>::Name()<<G4endl;
108 G4cout<<"Active ? : "<<fActive<<G4endl;
109 }
110
111 fNProcessed++;
112
113 // Pass everything if filter is not active
114 if (!fActive) {
115 fNPassed++;
116 return true;
117 }
118
119 // Do filtering
120 G4bool passed = Evaluate(object);
121
122 // Apply inversion if applicable
123 if (fInvert) passed = !passed;
124
125 if (passed) fNPassed++;
126
127 if (fVerbose) {
128 G4cout<<"Inverted ? : "<<fInvert<<G4endl;
129 G4cout<<"Passed ? : "<<passed<<G4endl;
130 G4cout<<"End verbose printout for filter "<<G4VFilter<T>::Name()<<G4endl;
131 }
132
133 return passed;
134}
135
136template <typename T>
137void
138G4SmartFilter<T>::PrintAll(std::ostream& ostr) const
139{
140 ostr<<"Printing data for filter: "<<G4VFilter<T>::Name()<<G4endl;
141
142 Print(ostr);
143
144 ostr<<"Active ? : " <<fActive<<G4endl;
145 ostr<<"Inverted ? : " <<fInvert<<G4endl;
146 ostr<<"#Processed : " <<fNProcessed<<G4endl;
147 ostr<<"#Passed : " <<fNPassed<<G4endl;
148}
149
150template <typename T>
151void
153{
154 fActive = true;
155 fInvert = false;
156 fNProcessed = 0;
157 fNPassed = 0;
158
159 // Clear subclass data
160 Clear();
161}
162
163template <typename T>
164void
166{
167 fActive = active;
168}
169
170template <typename T>
171G4bool
173{
174 return fActive;
175}
176
177template <typename T>
178void
180{
181 fInvert = invert;
182}
183
184template <typename T>
185G4bool
187{
188 return fInvert;
189}
190
191template <typename T>
192void
194{
195 fVerbose = verbose;
196}
197
198template <typename T>
199G4bool
201{
202 return fVerbose;
203}
204
205#endif
206
bool G4bool
Definition: G4Types.hh:86
#define G4endl
Definition: G4ios.hh:57
G4GLOB_DLL std::ostream G4cout
virtual void Print(std::ostream &ostr) const =0
virtual void PrintAll(std::ostream &ostr) const
void SetVerbose(const G4bool &)
virtual void Reset()
G4SmartFilter(const G4String &name)
virtual G4bool Evaluate(const T &) const =0
virtual void Clear()=0
G4bool GetVerbose() const
void SetActive(const G4bool &)
G4bool GetActive() const
virtual ~G4SmartFilter()
void SetInvert(const G4bool &)
G4bool Accept(const T &) const
G4bool GetInvert() const
G4String Name() const
Definition: G4VFilter.hh:80