-
Notifications
You must be signed in to change notification settings - Fork 20
/
Copy pathexpconfig_helpers.cc
196 lines (159 loc) · 9.98 KB
/
expconfig_helpers.cc
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
#include "catch.hpp"
#include "expconfig_helpers.h"
#include "expconfig/setups/SetupRegistry.h"
#include "expconfig/ExpConfig.h"
#include "expconfig/setups/Setup.h"
#include "base/std_ext/math.h"
#include "detectors/Trigger.h"
#include "detectors/CB.h"
#include "detectors/PID.h"
#include "detectors/TAPS.h"
#include "detectors/TAPSVeto.h"
#include "detectors/EPT.h"
#include "calibration/modules/Time.h"
#include "calibration/modules/CB_Energy.h"
#include "calibration/modules/CB_TimeWalk.h"
#include "calibration/modules/PID_Energy.h"
#include "calibration/modules/PID_PhiAngle.h"
#include "calibration/modules/TAPS_Time.h"
#include "calibration/modules/TAPS_Energy.h"
#include "calibration/modules/TAPS_ShortEnergy.h"
#include "calibration/modules/TAPS_ShowerCorrection.h"
#include "calibration/modules/TAPSVeto_Energy.h"
#include "calibration/modules/TAPSVeto_Time.h"
#include "calibration/fitfunctions/FitGaus.h"
#include "calibration/fitfunctions/FitGausPol0.h"
#include "calibration/fitfunctions/FitGausPol3.h"
#include "calibration/converters/MultiHit.h"
#include "calibration/converters/MultiHitReference.h"
#include "calibration/converters/GeSiCa_SADC.h"
#include "calibration/converters/CATCH_TDC.h"
#include "base/tmpfile_t.h"
#include <limits>
using namespace std;
using namespace ant::test;
using namespace ant::expconfig;
void ant::test::EnsureSetup(bool includeIgnored) {
struct Setup_Test : expconfig::Setup {
static OptionsPtr MakeOptions(bool includeIgnored) {
auto options = make_shared<OptionsList>();
if(includeIgnored)
options->SetOption("IncludeIgnoredElements=1");
return options;
}
tmpfolder_t calibrationDataFolder;
Setup_Test(bool includeIgnored) : Setup("Setup_Test", MakeOptions(includeIgnored)) {
// make sure we don't write stuff into the official database
calibrationDataManager = std::make_shared<calibration::DataManager>(calibrationDataFolder.foldername);
// setup the detectors of interest
auto trigger = make_shared<detector::Trigger_2014>();
AddDetector(trigger);
auto EPT = make_shared<detector::EPT_2014>(GetElectronBeamEnergy());;
AddDetector(EPT);
auto cb = make_shared<detector::CB>();
AddDetector(cb);
auto pid = make_shared<detector::PID_2014>();
AddDetector(pid);
const bool cherenkovInstalled = false;
const bool pizzaInstalled = false;
auto taps = make_shared<detector::TAPS_2013_11>(cherenkovInstalled, pizzaInstalled, false); // no Cherenkov, no Pizza, don't use sensitive channels
AddDetector(taps);
auto tapsVeto = make_shared<detector::TAPSVeto_2014>(cherenkovInstalled, pizzaInstalled); // no Cherenkov, no Pizza
AddDetector(tapsVeto);
// then calibrations need some rawvalues to "physical" values converters
// they can be quite different (especially for the COMPASS TCS system), but most of them simply decode the bytes
// to 16bit signed values
/// \todo check if 16bit signed is correct for all those detectors
const auto& convert_MultiHit16bit = make_shared<calibration::converter::MultiHit<std::uint16_t>>();
const auto& convert_CATCH_Tagger = make_shared<calibration::converter::CATCH_TDC>(
trigger->Reference_CATCH_TaggerCrate
);
const auto& convert_CATCH_CB = make_shared<calibration::converter::CATCH_TDC>(
trigger->Reference_CATCH_CBCrate
);
const auto& convert_GeSiCa_SADC = make_shared<calibration::converter::GeSiCa_SADC>();
const auto& convert_V1190_TAPSPbWO4 = make_shared<calibration::converter::MultiHitReference<std::uint16_t>>(
trigger->Reference_V1190_TAPSPbWO4,
calibration::converter::Gains::V1190_TDC
);
// the order of the reconstruct hooks is important
// add both CATCH converters and the V1190 first,
// since they need to scan the detector read for their reference hit
AddHook(convert_CATCH_Tagger);
AddHook(convert_CATCH_CB);
AddHook(convert_V1190_TAPSPbWO4);
// then we add the others, and link it to the converters
AddCalibration<calibration::Time>(EPT,
calibrationDataManager,
convert_CATCH_Tagger,
-325, // default offset in ns
std::make_shared<calibration::gui::FitGausPol0>()
);
AddCalibration<calibration::Time>(cb,
calibrationDataManager,
convert_CATCH_CB,
-325, // default offset in ns
std::make_shared<calibration::gui::FitGaus>(),
interval<double>{-60, 60} // default time window cut in ns
);
AddCalibration<calibration::Time>(pid,
calibrationDataManager,
convert_CATCH_CB,
-325,
std::make_shared<calibration::gui::FitGaus>(),
interval<double>{-500, 500} // default time window cut in ns
);
AddCalibration<calibration::TAPS_Time>(taps,
calibrationDataManager,
convert_MultiHit16bit,
convert_V1190_TAPSPbWO4,
interval<double>{-500, 500}, // for BaF2
interval<double>{-500, 500} // for PbWO4
);
AddCalibration<calibration::TAPSVeto_Time>(tapsVeto,
calibrationDataManager,
convert_MultiHit16bit, // for BaF2
convert_V1190_TAPSPbWO4, // for PbWO4
interval<double>{-1000, 1000},
interval<double>{-1000, 1000}
);
AddCalibration<calibration::CB_Energy>(cb, calibrationDataManager, convert_GeSiCa_SADC,
std::vector<double>{0.0}, // default pedestal
std::vector<double>{0.07}, // default gain
std::vector<double>{2.0}, // default MeV threshold
std::vector<double>{1.0} // default relative gain
);
AddCalibration<calibration::PID_Energy>(pid, calibrationDataManager, convert_MultiHit16bit,
std::vector<double>{100.0}, // default pedestals
std::vector<double>{0.014}, // default gain
std::vector<double>{15.0}, // default Raw threshold
std::vector<double>{0.1}, // default MC MeV threshold
std::vector<double>{1.0} // default relative gain
);
AddCalibration<calibration::TAPS_Energy>(taps, calibrationDataManager, convert_MultiHit16bit,
std::vector<double>{100.0}, // default pedestal
std::vector<double>{0.3}, // default gain
5.0, 0, // default Raw thresholds BaF2/PbWO4
std::vector<double>{1.0}, // default MC MeV threshold
std::vector<double>{1.0} // default relative gain
);
AddCalibration<calibration::TAPS_ShortEnergy>(taps, calibrationDataManager, convert_MultiHit16bit );
AddCalibration<calibration::TAPSVeto_Energy>(tapsVeto, calibrationDataManager, convert_MultiHit16bit);
// enable TAPS shower correction, which is a hook running on list of clusters
AddHook<calibration::TAPS_ShowerCorrection>();
// the PID calibration is a physics module only
AddCalibration<calibration::PID_PhiAngle>(pid, calibrationDataManager);
// CB timing needs timewalk correction
AddCalibration<calibration::CB_TimeWalk>(cb,
calibrationDataManager,
interval<double>{-std_ext::inf, std_ext::inf});
}
double GetElectronBeamEnergy() const override {
return 1604.0;
}
};
auto setup = make_shared<Setup_Test>(includeIgnored);
expconfig::SetupRegistry::AddSetup(setup->GetName(), setup);
ExpConfig::Setup::SetByName(setup->GetName());
REQUIRE_NOTHROW(ExpConfig::Setup::Get());
}