source: branches/start/MagicSoft/MarsOctober/mocttest/MOctTest.cc@ 9223

Last change on this file since 9223 was 447, checked in by harald, 24 years ago
Bringing the sources for the octobertest under CVS controll. (november, 3rd, 2000)
File size: 5.0 KB
Line 
1#include <stdlib.h>
2
3
4#include "MOctTest.h"
5
6
7MOctTest::MOctTest()
8{
9 // default constructor
10}
11
12MOctTest::~MOctTest()
13{
14 // default destructor
15}
16
17
18// ================================================================================
19// ================================================================================
20// ================================================================================
21// ================================================================================
22
23
24Bool_t MOctTest::PedAdcSpectra ( Char_t *inputfile )
25{
26 //
27 //
28
29 printf ("PedAdcSpectra:: Analyse the file %s \n", inputfile ) ;
30
31 // create a loop for this specific job.
32
33 MEvtLoop loop ;
34
35 // open input file
36
37 MRootFile *fileIn = new MRootFile( inputfile );
38
39 // set up the ParameterList,
40 // connect it to the loop
41
42 MParList *plist = new MParList;
43 loop.SetParList(plist);
44
45 // set up the TaskList for this program
46 // and connect it to the loop
47
48 MTaskList *tasks = new MTaskList;
49 tasks->SetEventType("PedTree") ;
50
51 loop.SetTaskList(tasks);
52
53 // now set up all parameter(data) containers and put them
54 // in the parameter list
55
56 // the buffer for the RawEvts, here for the Pedestals
57
58 MObjBuffer *pedbuf = new MObjBuffer(new MRawEvt("PedTree")); /* this buffer contains
59 * only one entry
60 */
61 pedbuf->SetAsInput(fileIn);
62 plist->AddToList(pedbuf);
63
64 // now it is neccessary to define the input stream, that means
65 // we set the input only to PedTree
66
67 MInputStreamID *inputStream = new MInputStreamID() ;
68 inputStream->SetEvtType("PedTree") ;
69 plist->AddToList(inputStream);
70
71 //
72 // the data container for the histograms
73
74 MHistosAdc *his = new MHistosAdc;
75
76 plist->AddToList(his);
77 // his->SetAsOutput();
78 // This tells the writer that this is an Output Container, which should
79 // be written to a file ( not working yet)
80
81
82 // set up the tasks and add them to the list
83
84 MParRead *readin = new MParRead;
85 tasks->AddToList(readin, "PedTree");
86
87 MAdcSpect *fillAdc = new MAdcSpect ("PedTree" ) ;
88 tasks->AddToList(fillAdc, "PedTree");
89
90 MShowSpect *showAdc = new MShowSpect () ;
91 tasks->AddToList(showAdc, "PedTree");
92
93 // MParWrite *write = new MParWrite;
94 // tasks->AddToList(write);
95
96 cout << endl;
97
98 //
99 // Print the structure of the parameter list plist
100 //
101 tasks->Print();
102
103 cout << endl;
104
105 //////////////////////////////////////////////////////////////
106 //
107 // call the event loop for 5000 Events
108 //
109
110 loop.Eventloop (50);
111
112 cout << endl << "THE END." << endl ;
113
114
115
116 return ( kTRUE ) ;
117}
118
119// ================================================================================
120// ================================================================================
121// ================================================================================
122// ================================================================================
123
124
125Bool_t MOctTest::CrAdcSpectra ( Char_t *inputfile )
126{
127 //
128 //
129
130 printf ("MOctTest::CrAdcSpectra -- Analyse the file %s \n", inputfile ) ;
131 // create a loop for this specific job.
132
133 MEvtLoop loop ;
134
135 // open input file
136
137 MRootFile *fileIn = new MRootFile( inputfile );
138
139 // set up the ParameterList,
140 // connect it to the loop
141
142 MParList *plist = new MParList;
143 loop.SetParList(plist);
144
145 // set up the TaskList for this program
146 // and connect it to the loop
147
148 MTaskList *tasks = new MTaskList;
149 loop.SetTaskList(tasks);
150
151 // now set up all parameter(data) containers and put them
152 // in the parameter list
153
154 // the buffer for the RawEvts, here for the Pedestals
155
156 MObjBuffer *pedbuf = new MObjBuffer(new MRawEvt("EvtTree")); /* this buffer contains
157 * only one entry
158 */
159 pedbuf->SetAsInput(fileIn);
160 plist->AddToList(pedbuf);
161
162 // now it is neccessary to define the input stream, that means
163 // we set the input only to EvtTree
164
165 MInputStreamID *inputStream = new MInputStreamID() ;
166 inputStream->SetEvtType("EvtTree") ;
167 plist->AddToList(inputStream);
168
169 // the data container for the histograms
170
171 MHistosAdc *his = new MHistosAdc;
172
173 plist->AddToList(his);
174 // his->SetAsOutput();
175 // This tells the writer that this is an Output Container, which should
176 // be written to a file ( not working yet)
177
178
179 // set up the tasks and add them to the list
180
181 MParRead *readin = new MParRead;
182 tasks->AddToList(readin, "EvtTree");
183
184 MAdcSpect *fillAdc = new MAdcSpect ("EvtTree" ) ;
185 tasks->AddToList(fillAdc, "EvtTree");
186
187 MShowSpect *showAdc = new MShowSpect () ;
188 tasks->AddToList(showAdc, "PedTree");
189
190 // MParWrite *write = new MParWrite;
191 // tasks->AddToList(write);
192
193 cout << endl;
194
195 //
196 // Print the structure of the parameter list plist
197 //
198 tasks->Print();
199
200 cout << endl;
201
202 //////////////////////////////////////////////////////////////
203 //
204 // call the event loop for 5000 Events
205 //
206
207 loop.Eventloop (5000);
208
209 cout << endl << "THE END." << endl ;
210
211
212
213 return ( kTRUE ) ;
214}
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