source: trunk/FACT++/src/makedata.cc@ 17048

Last change on this file since 17048 was 17034, checked in by tbretz, 11 years ago
Typo: pos -> pow
File size: 6.0 KB
Line 
1#include "externals/nova.h"
2
3#include "Database.h"
4
5#include "Time.h"
6#include "Configuration.h"
7
8using namespace std;
9using namespace Nova;
10
11// ========================================================================
12// ========================================================================
13// ========================================================================
14
15void SetupConfiguration(Configuration &conf)
16{
17 po::options_description control("Smart FACT");
18 control.add_options()
19 ("source-name", var<string>(), "Source name")
20 ("date-time", var<string>(), "SQL time (UTC)")
21 ("source-database", var<string>(""), "Database link as in\n\tuser:password@server[:port]/database.")
22 ("max-current", var<double>(75), "Maximum current to display in other plots.")
23 ("max-zd", var<double>(75), "Maximum zenith distance to display in other plots")
24 ("no-limits", po_switch(), "Switch off limits in plots")
25 ;
26
27 po::positional_options_description p;
28 p.add("source-name", 1); // The 1st positional options
29 p.add("date-time", 2); // The 2nd positional options
30
31 conf.AddOptions(control);
32 conf.SetArgumentPositions(p);
33}
34
35void PrintUsage()
36{
37 cout <<
38 "makedata - The astronomy data listing\n"
39 "\n"
40// "Calculates several plots for the sources in the database\n"
41// "helpful or needed for scheduling. The Plot is always calculated\n"
42// "for the night which starts at the same so. So no matter if\n"
43// "you specify '1974-09-09 00:00:00' or '1974-09-09 21:56:00'\n"
44// "the plots will refer to the night 1974-09-09/1974-09-10.\n"
45// "The advantage is that specification of the date as in\n"
46// "1974-09-09 is enough. Time axis starts and ends at nautical\n"
47// "twilight which is 12deg below horizon.\n"
48// "\n"
49 "Usage: makedata sql-datetime [--ra={ra} --dec={dec}]\n";
50 cout << endl;
51}
52
53int main(int argc, const char* argv[])
54{
55 Configuration conf(argv[0]);
56 conf.SetPrintUsage(PrintUsage);
57 SetupConfiguration(conf);
58
59 if (!conf.DoParse(argc, argv))
60 return 127;
61/*
62 if (!conf.Has("source-name"))
63 {
64 cout << "ERROR - --source-name missing." << endl;
65 return 1;
66 }
67*/
68 // ------------------ Eval config ---------------------
69
70 Time time;
71 if (conf.Has("date-time"))
72 time.SetFromStr(conf.Get<string>("date-time"));
73
74 const double max_current = conf.Get<double>("max-current");
75 const double max_zd = conf.Get<double>("max-zd");
76 const double no_limits = conf.Get<bool>("no-limits");
77
78 // -12: nautical
79 const RstTime sun_set = GetSolarRst(time.JD()-0.5, -12); // Sun set with the same date than th provided date
80 const RstTime sun_rise = GetSolarRst(time.JD()+0.5, -12); // Sun rise on the following day
81
82 const double jd = floor(time.Mjd())+2400001;
83 const double mjd = floor(time.Mjd())+49718+0.5;
84
85
86 const double jd0 = fmod(sun_set.set, 1); // ~0.3
87 const double jd1 = fmod(sun_rise.rise, 1); // ~0.8
88
89 cout << Time::iso << time << ", " << mjd-49718 << ", ";
90 cout << jd0 << ", ";
91 cout << jd1 << "\n";
92
93 if (!conf.Has("source-name"))
94 return 1;
95
96 const string source_name = conf.Get<string>("source-name");
97 const string fDatabase = conf.Get<string>("source-database");
98
99 // ------------------ Precalc moon coord ---------------------
100
101 vector<pair<EquPosn, double>> fMoonCoords;
102
103 for (double h=0; h<1; h+=1./(24*12))
104 {
105 const EquPosn moon = GetLunarEquCoords(jd+h, 0.01);
106 const double disk = GetLunarDisk(jd+h);
107
108 fMoonCoords.emplace_back(moon, disk);
109 }
110
111 // ------------- Get Sources from databasse ---------------------
112
113 const mysqlpp::StoreQueryResult res =
114 Database(fDatabase).query("SELECT fRightAscension, fDeclination FROM source WHERE fSourceName='"+source_name+"'").store();
115
116 // ------------- Create canvases and frames ---------------------
117
118 vector<mysqlpp::Row>::const_iterator row=res.begin();
119 if (row==res.end())
120 return 1;
121
122 EquPosn pos;
123 pos.ra = double((*row)[0])*15;
124 pos.dec = double((*row)[1]);
125
126 // Loop over 24 hours
127 for (int i=0; i<24*12; i++)
128 {
129 const double h = double(i)/(24*12);
130
131 // check if it is betwene sun-rise and sun-set
132 if (h<jd0 || h>jd1)
133 continue;
134
135 // get local position of source
136 const HrzPosn hrz = GetHrzFromEqu(pos, jd+h);
137
138 // Get moon properties and
139 const EquPosn moon = fMoonCoords[i].first;
140 const double disk = fMoonCoords[i].second;
141 const HrzPosn hrzm = GetHrzFromEqu(moon, jd+h);
142
143 // Angular distance between source and moon
144 const double angle = GetAngularSeparation(moon, pos);
145
146 // Distance between earth and moon relative to major semi-axis
147 const double dist = GetLunarEarthDist(jd+h)/384400;
148
149 // Current prediction
150 const double cang = sin(angle *M_PI/180);
151 const double calt = sin(hrzm.alt*M_PI/180);
152
153 const double lc = cang==0 ? -1 : calt*pow(disk, 2.2)*pow(dist, -2);
154 const double cur = lc>0 ? 4+103*lc : 4;
155
156 // Relative energy threshold prediction
157 //const double cs = cos((90+hrz.alt)*M_PI/180);
158 //const double ratio = (10.*sqrt(409600.*cs*cs+9009.) + 6400.*cs - 60.)/10.;
159 const double ratio = pow(cos((90-hrz.alt)*M_PI/180), -2.664);
160
161 // Add points to curve
162 // const double axis = (mjd+h)*24*3600;
163
164 Time t(mjd-49718);
165 t += boost::posix_time::minutes(i*5);
166
167 cout << t << ", " << h << ", ";
168
169 if (no_limits || cur<max_current)
170 cout << hrz.alt;
171 cout << ", ";
172
173 if (no_limits || 90-hrz.alt<max_zd)
174 cout << cur;
175 cout << ", ";
176
177 if (no_limits || (cur<max_current && 90-hrz.alt<max_zd))
178 cout << ratio*cur/8.1;
179 cout << ", ";
180
181 if (no_limits || (cur<max_current && 90-hrz.alt<max_zd))
182 cout << angle;
183 cout << "\n";
184 }
185
186 cout << flush;
187
188 return 0;
189}
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