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source: git/external/Hector/H_OpticalElement.cc@ 256a391

ImprovedOutputFile Timing dual_readout llp
Last change on this file since 256a391 was 3c40083, checked in by pavel <pavel@…>, 11 years ago

switch to a more stable Hector version

  • Property mode set to 100644
File size: 4.7 KB
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[3c40083]1/*
2---- Hector the simulator ----
3 A fast simulator of particles through generic beamlines.
4 J. de Favereau, X. Rouby ~~~ hector_devel@cp3.phys.ucl.ac.be
5
6 http://www.fynu.ucl.ac.be/hector.html
7
8 Centre de Physique des Particules et de Phénoménologie (CP3)
9 Université Catholique de Louvain (UCL)
10*/
[5b822e5]11
12/// \file H_OpticalElement.cc
13/// \brief Class aiming at describing any beam optical element.
14
15// c++ #includes
16#include <iostream>
17#include <string>
18
19// ROOT #includes
[3c40083]20//#include "TPaveLabel.h"
[5b822e5]21
22// local #includes
23#include "H_TransportMatrices.h"
24#include "H_Aperture.h"
25#include "H_OpticalElement.h"
26using namespace std;
27
28/// called by the constructors
[3c40083]29void H_OpticalElement::init(const string nameE, const int typeE, const double s, const double k, const double l, H_Aperture* the_app) {
[5b822e5]30 // this is called by the constructors
31 // must be in public section !
32 // xpos and ypos are vectors with n point. They define the aperture shape of the optical element.
33 name = nameE;
34 fs = s;
35 fk = k;
36 xpos = 0;
37 ypos = 0;
38 txpos = 0;
39 typos = 0;
40 element_length = l;
41 type = typeE;
[3c40083]42 element_mat = new TMatrix(MDIM,MDIM);
43 setAperture(the_app);
[5b822e5]44
[3c40083]45 if(element_length<0) { if(VERBOSE) cout<<"\t ERROR : Interpenetration of elements !"<<endl; }
46 if(element_length==0) { if(VERBOSE) cout<<"\t WARNING : 0-length element ! (" << name << ") " << " at " << fs << endl; }
[5b822e5]47 betax =0;
48 betay =0;
49}
50
[3c40083]51H_OpticalElement::H_OpticalElement() {
52 H_Aperture* the_app = new H_Aperture();
53 init("",DRIFT,0.,0.,0.1,the_app);
[5b822e5]54}
55
[3c40083]56H_OpticalElement::H_OpticalElement(const string nameE, const int typeE, const double s, const double k, const double l) {
57 H_Aperture* the_app = new H_Aperture();
58 init(nameE,typeE,s,k,l,the_app);
[5b822e5]59}
60
[3c40083]61H_OpticalElement::H_OpticalElement(const string nameE, const int typeE, const double s, const double k, const double l, H_Aperture* the_app) {
62 init(nameE,typeE,s,k,l,the_app);
[5b822e5]63}
64
[3c40083]65H_OpticalElement::H_OpticalElement(const int typeE, const double s, const double k, const double l, H_Aperture* the_app) {
66 init("",typeE,s,k,l,the_app);
[5b822e5]67}
68
[3c40083]69H_OpticalElement::H_OpticalElement(const int typeE, const double s, const double k, const double l) {
70 H_Aperture* the_app = new H_Aperture();
71 init("",typeE,s,k,l,the_app);
[5b822e5]72}
73
74H_OpticalElement::H_OpticalElement(const H_OpticalElement& el) {
75 fs = el.fs;
76 element_length = el.element_length;
77 fk = el.fk;
78 xpos = el.xpos;
79 ypos = el.ypos;
80 txpos = el.txpos;
81 typos = el.typos;
82 betax = el.betax;
83 betay = el.betay;
84 type = el.type;
85 name = el.name;
86 typestring = el.typestring;
[3c40083]87 element_mat = new TMatrix(*(el.element_mat));
88 element_aperture = new H_Aperture(*(el.element_aperture));
[5b822e5]89}
90
91H_OpticalElement& H_OpticalElement::operator=(const H_OpticalElement& el) {
92 if(this==&el) return *this;
93 fs = el.fs;
94 element_length = el.element_length;
95 fk = el.fk;
96 xpos = el.xpos;
97 ypos = el.ypos;
[3c40083]98 txpos = el.txpos;
99 typos = el.typos;
[5b822e5]100 betax = el.betax;
101 betay = el.betay;
102 type = el.type;
103 name = el.name;
104 typestring = el.typestring;
[3c40083]105 delete element_mat;
106 delete element_aperture;
107 element_mat = new TMatrix(*(el.element_mat));
108 element_aperture = new H_Aperture(*(el.element_aperture));
[5b822e5]109 return *this;
110}
111
[3c40083]112void H_OpticalElement::setAperture(H_Aperture * ap) {
113// element_aperture = const_cast<H_Aperture*>(ap);
114 element_aperture = ap;
[5b822e5]115 return;
116}
117
[3c40083]118void H_OpticalElement::printProperties() const {
119 cout << typestring;
120 cout << name;
121 cout <<"\t at s = " << fs;
122 cout <<"\t length = "<< element_length;
123 if(fk!=0) cout <<"\t strength = " << fk;
124 if(element_aperture->getType()!=NONE) {
125 cout <<"\t aperture type = " << element_aperture->getTypeString();
126 element_aperture->printProperties();
127 }
128
129 cout<<endl;
130 if(element_length<0) { if(VERBOSE) cout<<"\t ERROR : Interpenetration of elements !"<<endl; }
131 if(element_length==0) { if(VERBOSE) cout<<"\t WARNING : 0-length "<< typestring << " !" << endl; }
132
133 return;
[5b822e5]134}
135
136void H_OpticalElement::showMatrix() const {
[3c40083]137 printMatrix(element_mat);
[5b822e5]138 return;
139}
140
141void H_OpticalElement::drawAperture() const {
[3c40083]142 element_aperture->draw();
[5b822e5]143 return;
144}
145
[3c40083]146TMatrix H_OpticalElement::getMatrix() const {
147 return *element_mat;
[5b822e5]148}
149
[3c40083]150TMatrix H_OpticalElement::getMatrix(const float eloss, const float p_mass, const float p_charge) const {
[5b822e5]151 setMatrix(eloss,p_mass,p_charge);
[3c40083]152 return *element_mat;
[5b822e5]153}
154
155void H_OpticalElement::draw(const float meight, const float height) const{
[3c40083]156/* /// @param meight is the minimal extend of the graph
[5b822e5]157 /// @param height is the maximal extend of the graph
158 float x1 = getS();
159 float x2 = getS() + getLength();
160 float y1 = meight;
161 float y2 = height;
162 TPaveLabel* cur_box = new TPaveLabel(x1,y1,x2,y2,"");
163 cur_box->SetBorderSize(1);
164 cur_box->SetFillStyle(1001);
165 cur_box->SetFillColor((int)getType());
166 cur_box->Draw();
[3c40083]167*/
[5b822e5]168}
169
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