coverity fix
[u/mrichter/AliRoot.git] / TPC / AliTPCMonitorConfig.h
CommitLineData
48265b32 1#ifndef ALITPCMONITORCONFIG_H
2#define ALITPCMONITORCONFIG_H
3
4/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5 * See cxx source for full Copyright notice */
6
7/* $Id$ */
8
fb3305d1 9//////////////////////////////////////////////////////////////////////////
10////
11//// AliTPCMonitorConfig class
12////
13//// Configuration handler class for AliTPCMonitor.
14//// The class reads and stores basic configurations
15//// for the AliTPCMonitor class. The values can be changed
16//// online or written to the configuration file AliTPCMonitorConfig.txt
17////
18//// Author: Stefan Kniege, IKF, Frankfurt
19////
20////
48265b32 21/////////////////////////////////////////////////////////////////////////
22
c60053f6 23#include <TNamed.h>
24#include <TString.h>
48265b32 25
26class AliTPCMonitorConfig: public TNamed
27{
28 public :
29
ca7b8371 30 AliTPCMonitorConfig(const Char_t* name,const Char_t* title);
31 AliTPCMonitorConfig(const AliTPCMonitorConfig &config);
32 AliTPCMonitorConfig& operator= (const AliTPCMonitorConfig& config);
48265b32 33 virtual ~AliTPCMonitorConfig();
34
ca7b8371 35 Float_t GetButtonXSize() const { return fButtonXSize;}
36 Float_t GetButtonYSize() const { return fButtonYSize;}
37 Float_t GetButtonXFirst1() const { return fButtonFirstX1;}
38 Float_t GetButtonXFirst2() const { return fButtonFirstX2;}
39 Float_t GetButtonYFirst() const { return fButtonFirstY;}
40 Int_t GetMainXSize() const { return fMainXSize;}
41 Int_t GetMainYSize() const { return fMainYSize;}
42 Int_t GetBorderXSize() const { return fBorderXSize;}
43 Int_t GetBorderYSize() const { return fBorderYSize;}
44 Int_t GetCanvasXOffset() const { return fCanvasXOffset;}
45 Int_t GetCanvasXSize() const { return fCanvasXSize;}
46 Int_t GetCanvasYSize() const { return fCanvasYSize;}
47 Int_t GetCanvasXSpace() const { return fCanvasXSpace;}
48 Int_t GetCanvasYSpace() const { return fCanvasYSpace;}
49
50 Float_t* GetComponentSelection() const { return fComponents;}
51
52 Int_t GetEventProcessed() const { return fEventProcessed ;}
48265b32 53
54
ca7b8371 55 Int_t GetFormat() const { return fFormat ;}
c60053f6 56 const Char_t* GetFile() const { return fFileCurrent.Data();}
48265b32 57
ca7b8371 58 Int_t GetFitPulse() const { return fFitPulse ;}
c60053f6 59 const Char_t* GetLastProcFile();
ca7b8371 60 Int_t GetMaxHwAddr() const { return fMaxHwAddr ; }
48265b32 61
ca7b8371 62 Int_t GetLastSector() const { return fSectorLast;}
63 Int_t GetLastSectorDisplayed() const { return fSectorLastDisplayed;}
48265b32 64
ca7b8371 65 Int_t GetNextEventID() const { return fEventNextID ;}
66 Int_t GetNumOfChannels() const { return fNumOfChannels ; }
48265b32 67
ca7b8371 68 Int_t GetPedestals() const { return fPedestals ; }
69 Int_t GetProcNextEvent() const { return fEventNext;}
48265b32 70
ca7b8371 71 Int_t GetProcOneSector() const { return fProcOneSector;}
48265b32 72
ca7b8371 73 Int_t GetRangeBaseMin() const { return fRangeBaseMin;}
74 Int_t GetRangeBaseMax() const { return fRangeBaseMax;}
48265b32 75
ca7b8371 76 Int_t GetRangeMaxAdcMin() const { return fRangeMaxAdcMin;}
77 Int_t GetRangeMaxAdcMax() const { return fRangeMaxAdcMax;}
48265b32 78
ca7b8371 79 Int_t GetRangeSumMin() const { return fRangeSumMin;}
80 Int_t GetRangeSumMax() const { return fRangeSumMax;}
48265b32 81
82
ca7b8371 83 Int_t GetSectorFilled(Int_t sector,Int_t side)const { return fSectorArr[sector+side*18] ;}
84 Int_t GetSectorFilled(Int_t sector) const { return fSectorArr[sector] ;}
48265b32 85
ca7b8371 86 Int_t GetSamplingFrequency() const { return fSamplingFreq;}
48265b32 87
ca7b8371 88 Int_t GetTimeBins() const { return fTimeBins ; }
48265b32 89
ca7b8371 90 Int_t GetWrite10Bit() const { return fWrite10Bit ;}
48265b32 91
92
93
94 void SetBaseConfig(float* ConfArr);
95
c60053f6 96 void SetLastProcFile(const Char_t* val);
48265b32 97
98 void SetEventProcessed(Int_t val) { fEventProcessed=val;}
99
100 void SetFitPulse( Int_t val) { fFitPulse =val;}
101
102 void SetNumOfChannels(Int_t val) { fNumOfChannels = val ; }
103
104 void SetPedestals(Int_t val) { fPedestals = val ; }
105
106 void SetTimeBins(Int_t val) { fTimeBins = val ; }
107
c60053f6 108 void SetFile(const Char_t* val) { fFileCurrent=val; }
48265b32 109
110 void SetLastSector(Int_t val) { fSectorLast = val;}
111
112 void SetLastSectorDisplayed(Int_t val) { fSectorLastDisplayed = val;}
113
114 void SetNextEventID(Int_t val ) { fEventNextID = val;}
115
116 void SetProcNextEvent(Int_t val) { fEventNext = val ;}
117
118 void SetProcOneSector(Int_t val) { fProcOneSector = val ;}
119
120 void SetRangeMax( Int_t min, Int_t max) { fRangeMaxAdcMin=min, fRangeMaxAdcMax=max;}
121 void SetRangeBase(Int_t min, Int_t max) { fRangeBaseMin =min, fRangeBaseMax =max;}
122 void SetRangeSum( Int_t min, Int_t max) { fRangeSumMin =min, fRangeSumMax =max;}
123
124 void SetSectorFilled(Int_t sector,Int_t side){ fSectorArr[sector+side*18] =1;}
125 void SetSectorFilled(Int_t sector) { fSectorArr[sector] =1;}
126
127 void SetComponentSelection(float* val) { for(Int_t i=0;i<10;i++) fComponents[i] = val[i];}
128
129 void SetFormat(Int_t val) { fFormat = val;}
130
131 void SetWrite10Bit(Int_t val) { fWrite10Bit =val;}
132 void SetMainSize(Int_t mainx, Int_t mainy,
133 Int_t borderx ,Int_t bordery );
134
135 void PrintConfig();
136
c60053f6 137 void ReadConfig(const Char_t* nameconf);
48265b32 138 void ResetSectorArray() { for(Int_t i=0;i<36; i++) fSectorArr[i]=0;}
139
ca7b8371 140 private:
141
142 // Data Format 0: DATA 1: ROOT
143 Int_t fFormat; // Format of the processed file/stream
144
145 Int_t fSector; // Currently processed sector
146 Int_t fSectorLast; // Previously processed sector
147 Int_t fSectorLastDisplayed; // Last displayed sector
148 Int_t* fSectorArr; // Array of processed sectors
149
150 // Current and Last Files and Dirs
c60053f6 151 TString fFileLast; // Name of last processed file/stream
ca7b8371 152 Int_t fFileLastSet ; // Flag showing if last file name was set
153
c60053f6 154 TString fFileCurrent; // Current file/stream name
ca7b8371 155
156 Int_t fEventNext; // Process next event -> do not stay in current event
157 Int_t fEventNextID; // Next event ID to be processed (if event id does not exist search for next existing event)
158
159 Int_t fEventProcessed; // Flag to show if event was read in
160
161 // Ranges for determination of ADC max , Baseline and ADC Sum
162 Int_t fRangeMaxAdcMin ; // Min timebin of range to determine max. adc value
163 Int_t fRangeMaxAdcMax ; // Max timebin of range to determine max. adc value
164
165 Int_t fRangeBaseMin ; // Min timebin of range to determine baseline
166 Int_t fRangeBaseMax ; // Max timebin of range to determine basline
167
168 Int_t fRangeSumMin ; // Min timebin of range to determine adc sum
169 Int_t fRangeSumMax ; // Max timebin of range to determine adc sum
170
171 // Canvas Size for Monitor Canvases
172 Int_t fCanvasXSize; // Canvas size in x ( set to fCanvasMainSize )
173 Int_t fCanvasYSize; // Canvas size in y ( set to fCanvasMainSize )
174 Int_t fCanvasXSpace; // Canvas size in x + border size
175 Int_t fCanvasYSpace; // Canvas size in y + border size
176 Int_t fCanvasXOffset; // Canvas x offset (main window)
177 Int_t fCanvasMainSize; // Canvas size in x and y
178
179 // Size of Main frame and Border (depending on Window Manager)
180 Int_t fMainXSize; // Main window size x
181 Int_t fMainYSize; // Main window size y
182
183 Int_t fBorderXSize ; // Canvas border size x
184 Int_t fBorderYSize ; // Canvas border size y
185
186 // Buttonsize;
187 Float_t fButtonXSize ; // Button size x
188 Float_t fButtonYSize ; // Button size y
189 Float_t fButtonFirstX1; // Pos of first button row in x
190 Float_t fButtonFirstX2; // Pos of second button row in x
191 Float_t fButtonFirstY ; // Position of first button in y
192
193 Int_t fWrite10Bit ; // Flag to write 10 bit data words to file
194
195 // Arr to Store Selected components to be displayed
196 Float_t* fComponents; // Array of components to be selected for display
197
198 // Sampling Freq required for FFT
199 Int_t fSamplingFreq; // Sampling frequency for data taking
200
201
202 Int_t fPedestals ; // Version for pedestal calculation
203 Int_t fNumOfChannels ; // Maximum number of channels
204 Int_t fTimeBins ; // Number of timebins to be displayed
205 Int_t fMaxHwAddr ; // Max value of hardware addresses
206
207 Int_t fFitPulse ; // Flag for fitting pulse around max adc
208
209 Int_t fProcOneSector ; // Flag for processing only the specified sector for the next event
210
48265b32 211
212 ClassDef(AliTPCMonitorConfig,1);
213};
214#endif