/[PAMELA software]/ParDirCalc/CheckGeom/TrAng.cpp
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Contents of /ParDirCalc/CheckGeom/TrAng.cpp

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Revision 1.1.1.1 - (show annotations) (download) (vendor branch)
Mon Apr 5 08:37:58 2010 UTC (14 years, 8 months ago) by pam-mep
Branch: MAIN, yoyo
CVS Tags: start, HEAD
Changes since 1.1: +0 -0 lines
Create directory

1 #include <TObject.h>
2 #include <TrAng.h>
3 #include "TString.h"
4 #include "TMatrixD.h"
5 #include "TH1F.h"
6 #include <iostream>
7 #include <stdio.h>
8
9 using namespace std;
10
11 PamelaOrientation::PamelaOrientation() : TObject(){
12 a = 360/(2*TMath::Pi());
13 Re = 6000000;
14 }
15
16 PamelaOrientation::~PamelaOrientation(){
17 }
18
19 TMatrixD PamelaOrientation::QuatoECI(Float_t q0, Float_t q1, Float_t q2, Float_t q3){
20 TMatrixD Pij(3,3);
21 Pij(0,0) = pow(q0,2)+pow(q1,2)-pow(q2,2)-pow(q3,2);
22 Pij(0,1) = /*2*(q1*q2+q0*q3);/*/ 2*(q1*q2-q0*q3);
23 Pij(0,2) = /*2*(q1*q3-q0*q2);/*/ 2*(q1*q3+q0*q2);
24 Pij(1,0) = /*2*(q1*q2-q0*q3);/*/ 2*(q1*q2+q0*q3);
25 Pij(1,1) = pow(q0,2)-pow(q1,2)+pow(q2,2)-pow(q3,2);
26 Pij(1,2) = /*2*(q2*q3+q0*q1);/*/ 2*(q2*q3-q0*q1);
27 Pij(2,0) = /*2*(q1*q3+q0*q2);/*/ 2*(q1*q3-q0*q2);
28 Pij(2,1) = /*2*(q2*q3-q0*q1);/*/ 2*(q2*q3+q0*q1);
29 Pij(2,2) = pow(q0,2)-pow(q1,2)-pow(q2,2)+pow(q3,2);
30 return Pij;
31 }
32
33 TMatrixD PamelaOrientation::ECItoGreenwich(TMatrixD Aij, UInt_t t){
34 //t=1154304000+86400*365;
35 TMatrixD Gij(3,3);
36 Double_t omg = (7.292115e-5)*a; // Earth rotation velosity (Around polar axis);
37 //Double_t t1 = 0;
38 //if(t<=1158883200) t1 = 1127347200+229.2732; //absTime at 22/09/2005 + diference between Solar midnight and Greenwich sidereal midnight
39 //if(t>1158883200&&t<=1190419200) t1 = 1158883200+172.3415;//absTime at 22/09/2006 + diference between Solar midnight and Greenwich sidereal midnight
40 //if(t>=1190419200&&t<1222041600) t1 = 1190419200+115.39; //absTime at 22/09/2007 + diference between Solar midnight and Greenwich sidereal midnight
41 //if(t>=1222041600) t1 = 1222041600 + 294.9361; //absTime at 22/09/2008 + diference between Solar midnight and Greenwich sidereal midnight
42 //UInt_t Nd = (t-t1)/86400;
43 //Int_t DifSuSt = Nd*236.55;
44 Double_t d = (t-10957*86400-43200); //Number of day, passing from 01/01/2000 12:00:00 to t;
45 d = d/86400;
46 //d = t-da*86400+DifSuSt
47 //cout<<"t = "<<t<<"\n";
48 //cout<<"t - 2000y = "<<t-10957*86400-43200<<"\n";
49 //cout<<"d = "<<d<<"\n";
50 //Int_t tl = t%86400; //!!!!!!!!!!!!!!!!!!!!!!!!
51 Double_t T = d/36525; //Number of Julian centuries;
52
53 //Double_t tl = t-t1-Nd*86400-DifSuSt;
54 Double_t Se = 6*3600+41*60+236.555367908*d+0.093104*pow(T,2)-(6.2e-6)*pow(T,3);
55 //cout<<"Se = "<<Se<<"\n";
56 //cout<<t<<endl<<d<<endl<<tl<<endl<<Se+omg*tl*86400/360<<endl;
57 Int_t tr = (t-10957*86400)%86400;
58 //cout<<"tr = "<<tr<<endl;
59 Double_t Somg = (Se+49.077+omg*86400*tr/360)*360/86400;
60 //cout<<"t1 = "<<(t-10957*86400)%86400<<"\n";
61 //cout<<"tr = "<<tr<<"\n";
62 //cout<<"Somg = "<<Se+omg*86400*tr/360<<"\n";
63 //cout<<"Somg = "<<((Somg-360*6)*86400/360/3600-20)*60<<"\n";
64 //cout<<cos(Somg/a)<<endl;
65 Gij(0,0) = cos(Somg/a);
66 Gij(0,1) = -sin(Somg/a);
67 Gij(0,2) = 0;
68 Gij(1,0) = sin(Somg/a);
69 Gij(1,1) = cos(Somg/a);
70 Gij(1,2) = 0;
71 Gij(2,0) = 0;
72 Gij(2,1) = 0;
73 Gij(2,2) = 1;
74 Gij.Invert();
75 //SetDirAxisGreenwich(Aij);
76 //cout<<(Somg/a)<<endl<<Aij(0,0)<<" "<<Aij(1,0)<<" "<<Aij(2,0)<<endl;
77 return Gij*Aij;
78 }
79
80 TMatrixD PamelaOrientation::GreenwichtoGEO(Double_t lat, Double_t lon, TMatrixD Aij){
81 //Double_t a = 360/(2*TMath::Pi());
82 //Double_t Re = 6000000;
83 TMatrixD Gij(3,3);
84 TMatrixD Fij(3,3);
85
86 TMatrixD Hij(3,3); //TEST
87 TMatrixD Iij(3,3); //TEST
88
89 // if((lat<0.1)&&(lat>-0.1)){
90 //cout<<"lon = "<<lon<<" lat = "<<lat<<endl;
91 lon=(-lon)/a; lat=(-lat)/a;
92 //cout<<"lon = "<<lon<<" lat = "<<lat<<endl;
93 //
94 // cout<<"Quaternions Array"<<endl;
95 //cout<<Aij(0,0)<<" "<<Aij(0,1)<<" "<<Aij(0,2)<<endl;
96 //cout<<Aij(1,0)<<" "<<Aij(1,1)<<" "<<Aij(1,2)<<endl;
97 //cout<<Aij(2,0)<<" "<<Aij(2,1)<<" "<<Aij(2,2)<<endl<<endl;
98 // }
99 //Double_t x0 = (alt+Re)*sin(lat)*sin(lon);
100 //Double_t y0 = (alt+Re)*sin(lat)*cos(lon);
101 //Double_t Sa = lon-a*atan(y0/x0);
102 //if (y0>0&&x0<0) Sa=-Sa+90;
103 //if (y0<0&&x0<0) Sa=Sa-90;
104 //if (y0>0&&x0==0) Sa=90;
105 //if (y0<0&&x0==0) Sa=-90;
106
107 Gij(0,0) = cos(lon);
108 Gij(0,1) = -sin(lon);
109 Gij(0,2) = 0;
110 Gij(1,0) = sin(lon);
111 Gij(1,1) = cos(lon);
112 Gij(1,2) = 0;
113 Gij(2,0) = 0;
114 Gij(2,1) = 0;
115 Gij(2,2) = 1;
116
117 //cout<<"First rotation"<<endl;
118 //cout<<Gij(0,0)<<" "<<Gij(0,1)<<" "<<Gij(0,2)<<endl;
119 //cout<<Gij(1,0)<<" "<<Gij(1,1)<<" "<<Gij(1,2)<<endl;
120 //cout<<Gij(2,0)<<" "<<Gij(2,1)<<" "<<Gij(2,2)<<endl<<endl;
121
122 //Gij.Invert();
123
124 Fij(0,0) = cos(lat);
125 Fij(0,1) = 0;
126 Fij(0,2) = -sin(lat);
127 Fij(1,0) = 0;
128 Fij(1,1) = 1;
129 Fij(1,2) = 0;
130 Fij(2,0) = sin(lat);
131 Fij(2,1) = 0;
132 Fij(2,2) = cos(lat);
133
134 //Fij.Invert();
135
136 //if((lat<0.1)&&(lat>-0.1)){
137 /* Hij=Gij*Aij; //TEST
138
139 cout<<"First rotation"<<endl;
140 cout<<Hij(0,0)<<" "<<Hij(0,1)<<" "<<Hij(0,2)<<endl;
141 cout<<Hij(1,0)<<" "<<Hij(1,1)<<" "<<Hij(1,2)<<endl;
142 cout<<Hij(2,0)<<" "<<Hij(2,1)<<" "<<Hij(2,2)<<endl<<endl;
143
144 Iij = Fij*(Gij*Aij); //TEST
145
146 cout<<"Second rotation"<<endl;
147 cout<<Iij(0,0)<<" "<<Iij(0,1)<<" "<<Iij(0,2)<<endl;
148 cout<<Iij(1,0)<<" "<<Iij(1,1)<<" "<<Iij(1,2)<<endl;
149 cout<<Iij(2,0)<<" "<<Iij(2,1)<<" "<<Iij(2,2)<<endl;
150 //
151 Int_t ret;
152 cin>>ret;*/
153 // }
154 return Fij*(Gij*Aij);
155 }
156
157 TMatrixD PamelaOrientation::PamelatoGEO(TMatrixD Aij, Double_t B1, Double_t B2, Double_t B3){
158 //TMatrixD Gij(3,3);
159 TMatrixD Hij(3,1);
160 TMatrixD Bij(3,1);
161 Bij(0,0) = B1;
162 Bij(1,0) = B2;
163 Bij(2,0) = B3;
164 //Double_t alfa = TMath::ASin(sqrt(1/((Aij(1,2))/Aij(0,2)+1))) * TMath::RadToDeg();
165 //Gij(0,0) = cos(alfa/a);
166 //Gij(0,1) = -sin(alfa/a);
167 //Gij(0,2) = 0;
168 //Gij(1,0) = 0;
169 //Gij(1,1) = 1;
170 //Gij(1,2) = 0;
171 //Gij(2,0) = sin(alfa/a);
172 //Gij(2,1) = cos(alfa/a);
173 //Gij(2,2) = 0;
174
175 Hij=Aij*Bij;
176 return Hij;
177 //cout<<0.25-Aij(2,2)/(Aij(2,1)*Aij(2,0))<<endl;
178 //cout<<Hij(0,0)<<endl;//" "<<Hij(0,1)<<" "<<Hij(0,2)<<endl;
179 //cout<<Hij(1,0)<<endl;//" "<<Hij(1,1)<<" "<<Hij(1,2)<<endl;
180 //cout<<Hij(2,0)<<endl;//" "<<Hij(2,1)<<" "<<Hij(2,2)<<endl;
181 }
182
183 TMatrixD PamelaOrientation::ColPermutation(TMatrixD Aij){
184 TMatrixD Gij(3,3);
185 Gij(0,0) = 1; Gij(0,1) = 0; Gij(0,2) = 0;
186 Gij(1,0) = 0; Gij(1,1) = 0; Gij(1,2) = 1;
187 Gij(2,0) = 0; Gij(2,1) = -1; Gij(2,2) = 0;
188 return Aij*Gij;
189 }
190
191 Double_t PamelaOrientation::GetPitchAngle(Double_t x1, Double_t y1, Double_t z1, Double_t x2, Double_t y2, Double_t z2){
192 return TMath::ACos((x1*x2 + y1*y2 + z1*z2)/(sqrt(pow(x1,2)+pow(y1,2)+pow(z1,2))*sqrt(pow(x2,2)+pow(y2,2)+pow(z2,2)))) * TMath::RadToDeg();
193 }

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