coverity fix
[u/mrichter/AliRoot.git] / TPC / AliTPCAltroEmulator.cxx
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eb7e0771 1/** @file Altro.C
2 * @brief The Altro class implements the Altro digital Chain in C++
3 *
4 * This Class represents a C++ version of the ALTRO. For a complete Documentation of the Altro
5 * Look at : http://ep-ed-alice-tpc.web.cern.ch/ep-ed-alice-tpc/altro_chip.htm\n
6 * Due to the fact that the real ALTRO constantly samples in between the recorded events,
7 * it has the knowledge on what happened in the period. This affects the BSL1, TCF and BSL2 module.
8 * In the BSL1 the ALTRO follows slow baseline drifts e.g. temperature change, the TCF has a infinite
9 * (IIR Filter) memory of "old samples" i.e. a cluster at the start of a readout cycle will be treated
10 * differently, and the BSL2 has a 8 step pipeline. The ALTRO Class can't emulate this behavior,
11 * since the data is not recorded.\n
12 *
13 * @author Roland Bramm
14 * @version $LastChangedRevision: 688 $
15 * @date $LastChangedDate: 2005-12-16 14:07:11 +0100 (Fri, 16 Dec 2005) $
16 *
17 * \verbinclude Altro/Altro.C.log
18 *
19 */
13af8d96 20
eb7e0771 21/////////////////////////////////////////////////////////////////////////////////////////////////////
22// Class for emulation of the ALTRO chip (Altro digital Chain) in C++ //
23// Author: Roland Bramm //
24// //
25// NOTE: This class has been modified to be conform with the coding conventions of the //
26// ALICE Off-line Project. Keywords for setting the mode of BSC1 were modified //
27// and are shown in the header file ... //
28// Stefan Rossegger, 8th february 2008 //
29/////////////////////////////////////////////////////////////////////////////////////////////////////
30
338e0dd9 31#include <AliTPCAltroEmulator.h>
32#include <TH1F.h>
33#include <TMath.h>
34#include <TSystem.h>
35#include <AliDAQ.h>
36#include <AliRawReader.h>
37#include <AliRawVEvent.h>
38#include <AliRawData.h>
39#include <AliRawVEquipment.h>
40#include <AliRawEquipmentHeader.h>
41#include <AliTPCRawStreamV3.h>
42#include <TCanvas.h>
43
eb7e0771 44
45/** @brief Consturctor of Altro Class
46 *
47 * Consturctor of Altro Class, some variables are set.\n
48 * The input Data is altered, so after running the complete emulation you have the
49 * Altro Processed Data in the Channel Pointer.\n
50 *
51 * @param timebins an <tt> int </tt> sets the length of the input Data (Channel)
338e0dd9 52 * @param Channel an <tt> short* </tt> Pointer to a 1d Short_tArray with the input Data
eb7e0771 53 */
54
9389f9a4 55
56ClassImp(AliTPCAltroEmulator)
57
338e0dd9 58AliTPCAltroEmulator::AliTPCAltroEmulator(Int_t timebins, short* Channel) :
b479e253 59 TNamed(),
60 ftimebins(timebins),
61// fChannelIn(Channel),
62 fChannelShort(Channel),
63 fADCkeep(0),
64 fOnBSL1(0),
65 fOnTCF(0),
66 fOnBSL2(0),
67 fOnClip(0),
68 fOnZSU(0),
69
70 fConfiguredAltro(0), // ConfiguredAltro
71 fConfiguredBSL1(0), // ConfiguredBSL1
72 fConfiguredTCF(0), // ConfiguredTCF
cd10c6cd 73 fConfiguredTCFraw(0), // ConfiguredTCF
b479e253 74 fConfiguredBSL2(0), // ConfiguredBSL2
75 fConfiguredZSU(0), // ConfiguredZSU
76 fBSL1mode(0), // BSL1mode
77 fBSL1ValuePeDestal(0), // BSL1ValuePeDestal
338e0dd9 78 fBSL1PedestalMem(0), // BSL1PedestalMem
b479e253 79 fBSL1polarity(0), // BSL1polarity
80
81 fTCFK1(0), // K1
82 fTCFK2(0), // K2
83 fTCFK3(0), // K3
84 fTCFL1(0), // L1
85 fTCFL2(0), // L2
86 fTCFL3(0), // L3
87
88 fTCFK1Int(0), // K1Int
89 fTCFK2Int(0), // K2Int
90 fTCFK3Int(0), // K3Int
91 fTCFL1Int(0), // L1Int
92 fTCFL2Int(0), // L2Int
93 fTCFL3Int(0), // L3Int
94
95 fBSL2HighThreshold(0), // BSL2HighThreshold
96 fBSL2LowThreshold(0), // BSL2LowThreshold
97 fBSL2Offset(0), // BSL2Offset
98 fBSL2Presamples(0), // BSL2Presamples(0),
99 fBSL2Postsamples(0), // BSL2Postsamples
100
101 fZSUThreshold(0), // ZSUThreshold
102
103 fZSUMinSamplesaboveThreshold(0), // ZSUMinSamplesaboveThreshold
104 fZSUPresamples(0), // ZSUPresamples
338e0dd9 105 fZSUPostsamples(0), // ZSUPostsamples
106
107 fReader(0), // for Altro Emulation on Raw Reader
108 fDecoder(0),
13af8d96 109 fRunNumber(0),
9f3b99e2 110 fDDLFolderName("./"),
111 fOutputDateFileName("./tmpRaw.date"),
112 fOutputRootFileName("./tmpRaw.root"),
338e0dd9 113 fIsRandom(kTRUE),
114 fChannels(0),
115 fCDHs(0),
116 fADCs(0),
117 fTrailers(0),
118 fRawData(0) {
eb7e0771 119 //
120 // Constructor of Altro Class
121 //
b479e253 122
b3b5d5c9 123 fADCkeep = new Short_t[1024];
b479e253 124
7ee86790 125 fTCFK1IntROC[0]=0; fTCFK1IntROC[1]=0; // dummy defaults
126 fTCFK2IntROC[0]=0; fTCFK2IntROC[1]=0; // dummy defaults
127 fTCFK3IntROC[0]=0; fTCFK3IntROC[1]=0; // dummy defaults
128 fTCFL1IntROC[0]=0; fTCFL1IntROC[1]=0; // dummy defaults
129 fTCFL2IntROC[0]=0; fTCFL2IntROC[1]=0; // dummy defaults
130 fTCFL3IntROC[0]=0; fTCFL3IntROC[1]=0; // dummy defaults
131
eb7e0771 132}
133
134
b3b5d5c9 135
eb7e0771 136/** @brief Destructor of Altro Class
137 *
138 * Destructor of Altro Class\n
139 */
338e0dd9 140AliTPCAltroEmulator::~AliTPCAltroEmulator() {
eb7e0771 141 //
142 // Destructor of Altro Class
143 //
144
b3b5d5c9 145 // if(fConfiguredZSU == 1)
146 delete[] fADCkeep;
338e0dd9 147
148 delete[] fChannels;
149 delete[] fCDHs ;
150 delete[] fADCs ;
151 delete[] fTrailers;
152 delete[] fRawData ;
153 delete fDecoder ;
154
eb7e0771 155}
156
eb7e0771 157
158/** @brief Configures which modules of the Altro should be on.
159 *
160 * Configures which modules of the Altro should be on. Each of the modules
161 * which are configured to be on, have to be configured later before running
162 * the emulation!\n
163 *
338e0dd9 164 * @param ONBaselineCorrection1 an <tt> Int_t </tt> Switch (0,1) to turn on the Base Line Correction 1 (BSL1) Module
165 * @param ONTailcancellation an <tt> Int_t </tt> Switch (0,1) to turn on the Tail Cancellation Filter (TCF) Module
166 * @param ONBaselineCorrection2 an <tt> Int_t </tt> Switch (0,1) to turn on the Moving Average Filter (BSL2) Module
167 * @param ONClipping an <tt> Int_t </tt> Switch (0,1) to turn on the Clipping Module. This is not possible in the real Altro, there it is always on.
168 * @param ONZerosuppression an <tt> Int_t </tt> Switch (0,1) to turn on the Zero Suppression (ZSU) Module
169 * @param ONDataFormatting an <tt> Int_t </tt> Switch (0,1) to turn on the Data Formatting on (not implemented)
eb7e0771 170 */
338e0dd9 171void AliTPCAltroEmulator::ConfigAltro(Int_t ONBaselineCorrection1, Int_t ONTailcancellation, Int_t ONBaselineCorrection2, Int_t ONClipping, Int_t ONZerosuppression, Int_t ONDataFormatting){
eb7e0771 172 //
173 // Configures which modules of the Altro should be on
174 //
175 fOnBSL1 = InRange(ONBaselineCorrection1,0,1,"AliTPCAltroEmulator::ConfigAltro","ONBaselineCorrection1");
176 fOnTCF = InRange(ONTailcancellation,0,1,"AliTPCAltroEmulator::ConfigAltro","ONTailcancellation");
177 fOnBSL2 = InRange(ONBaselineCorrection2,0,1,"AliTPCAltroEmulator::ConfigAltro","ONBaselineCorrection2");
178 fOnClip = InRange(ONClipping,0,1,"AliTPCAltroEmulator::ConfigAltro","ONClipping");
179 fOnZSU = InRange(ONZerosuppression,0,1,"AliTPCAltroEmulator::ConfigAltro","ONZerosuppression");
180 fConfiguredAltro = 1;
7409c8db 181 if (!fConfiguredAltro) { //dummy code to avoid warning
182 printf("%d\n",ONDataFormatting); // does not have to be checked
183 }
eb7e0771 184}
185
186/** @brief Configures the Base Line Correction 1 (BSL1) Module
187 *
188 * Configures the Base Line Correction 1 (BSL1) Module. You dont have to build a proper pedestalMemory
189 * array, a pointer of the correct type is enough, of course you are not allowed to use Basline
190 * Correction Modes which need then the array ...\n
191 * All configurable values are "Range checked" and if out of the Range set to the nearest extreme.
192 * So the Emulation will work, but the result is maybe not the expected one.
193 *
338e0dd9 194 * @param mode an <tt> Int_t </tt> sets the mode of the Baseline Correction. See the Altro manual for a description
195 * @param ValuePeDestal an <tt> Int_t </tt> this is the baseline of the Channel.
196 * @param PedestalMem an <tt> *Int_t </tt> Pointer to a 1d Short_t Array with the pedestal memory Data
197 * @param polarity an <tt> Int_t </tt> Switch (0,1) for the polarity
eb7e0771 198 */
338e0dd9 199void AliTPCAltroEmulator::ConfigBaselineCorrection1(Int_t mode, Int_t ValuePeDestal, Int_t *PedestalMem, Int_t polarity){
eb7e0771 200 //
201 // Configures the Base Line Correction 1 (BSL1) Module
202 //
b3b5d5c9 203 fBSL1mode = InRange(mode,0,16,"AliTPCAltroEmulator::ConfigBaselineCorrection1","mode");
eb7e0771 204 fBSL1ValuePeDestal = InRange(ValuePeDestal,0,1023,"AliTPCAltroEmulator::BaselineCorrection1","ValuePeDestal");
205 fBSL1PedestalMem = PedestalMem;
206 fBSL1polarity = InRange(polarity,0,1,"AliTPCAltroEmulator::BaselineCorrection1","polarity");
207 fConfiguredBSL1 = 1;
208}
209
210/** @brief Configures the Tail Cancellation Filter (TCF) Module
211 *
212 * Configures the Tail Cancellation Filter (TCF) Module. You have to set the coefficients in the
213 * Integer version.\n
338e0dd9 214 * To convert from Int_t to Float_t use (int)*(pow(2,-16)-1)
215 * To convert from Float_t to Int_t usw (Float_t)*(pow(2,16)-1)
eb7e0771 216 * All configurable values are "Range checked" and if out of the Range set to the nearest extreme.
217 * So the Emulation will work, but the result is maybe not the expected one.
218 *
338e0dd9 219 * @param K1 an <tt> Int_t </tt> sets the K1 coeeficient of the TCF
220 * @param K2 an <tt> Int_t </tt> sets the K2 coeeficient of the TCF
221 * @param K3 an <tt> Int_t </tt> sets the K3 coeeficient of the TCF
222 * @param L1 an <tt> Int_t </tt> sets the L1 coeeficient of the TCF
223 * @param L2 an <tt> Int_t </tt> sets the L2 coeeficient of the TCF
224 * @param L3 an <tt> Int_t </tt> sets the L3 coeeficient of the TCF
eb7e0771 225 */
338e0dd9 226void AliTPCAltroEmulator::ConfigTailCancellationFilter(Int_t K1, Int_t K2, Int_t K3, Int_t L1, Int_t L2, Int_t L3){
eb7e0771 227 //
228 // Configures the Tail Cancellation Filter (TCF) Module
229 //
338e0dd9 230 // conf from Int_t to fp: (int)*(pow(2,-16)-1)
231 // backway: (Float_t)*(pow(2,16)-1)
eb7e0771 232 fTCFK1Int = InRange(K1,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K1");
233 fTCFK2Int = InRange(K2,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K2");
234 fTCFK3Int = InRange(K3,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K3");
235
236 fTCFL1Int = InRange(L1,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L1");
237 fTCFL2Int = InRange(L2,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L2");
238 fTCFL3Int = InRange(L3,0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L3");
239 fConfiguredTCF = 1;
240}
b3b5d5c9 241void AliTPCAltroEmulator::ConfigTailCancellationFilterForRAWfiles(const Int_t *K1, const Int_t *K2, const Int_t *K3,
242 const Int_t *L1, const Int_t *L2, const Int_t *L3){
cd10c6cd 243 //
244 // Configures the Tail Cancellation Filter (TCF) Module - Different settings for IROC and OROC
245 //
246 // conf from Int_t to fp: (int)*(pow(2,-16)-1)
247 // backway: (Float_t)*(pow(2,16)-1)
248
249 // IROC
250 fTCFK1IntROC[0] = InRange(K1[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K1[0]");
251 fTCFK2IntROC[0] = InRange(K2[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K2[0]");
252 fTCFK3IntROC[0] = InRange(K3[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K3[0]");
253 fTCFL1IntROC[0] = InRange(L1[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L1[0]");
254 fTCFL2IntROC[0] = InRange(L2[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L2[0]");
255 fTCFL3IntROC[0] = InRange(L3[0],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L3[0]");
256 // OROC
257 fTCFK1IntROC[1] = InRange(K1[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K1[1]");
258 fTCFK2IntROC[1] = InRange(K2[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K2[1]");
259 fTCFK3IntROC[1] = InRange(K3[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","K3[1]");
260 fTCFL1IntROC[1] = InRange(L1[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L1[1]");
261 fTCFL2IntROC[1] = InRange(L2[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L2[1]");
262 fTCFL3IntROC[1] = InRange(L3[1],0,65535,"AliTPCAltroEmulator::ConfigTailCancellationFilter","L3[1]");
263
264
265 fConfiguredTCFraw = 1;
266}
267
eb7e0771 268
269/** @brief Configures the Moving Average Filter (BSL2) Module
270 *
271 * Configures the Moving Average Filter (BSL2) Module.
272 * All configurable values are "Range checked" and if out of the Range set to the nearest extreme.
273 * So the Emulation will work, but the result is maybe not the expected one.
274 *
338e0dd9 275 * @param HighThreshold an <tt> Int_t </tt> sets the high Threshold
276 * @param LowThreshold an <tt> Int_t </tt> sets the low Theshold
277 * @param Offset an <tt> Int_t </tt> sets the the offset which is added to the Signal
278 * @param Presamples an <tt> Int_t </tt> sets the number of pre samples excluded from the moving average caclulation
279 * @param Postsamples an <tt> Int_t </tt> sets the number of post samples excluded from the moving average caclulation
eb7e0771 280 */
338e0dd9 281void AliTPCAltroEmulator::ConfigBaselineCorrection2(Int_t HighThreshold, Int_t LowThreshold, Int_t Offset, Int_t Presamples, Int_t Postsamples){
eb7e0771 282 //
283 // Configures the Moving Average Filter (BSL2) Module
284 //
285 fBSL2HighThreshold = InRange(HighThreshold,0,1023,"AliTPCAltroEmulator::ConfigBaselineCorrection2","HighThreshold");
286 fBSL2LowThreshold = InRange(LowThreshold,0,1023,"AliTPCAltroEmulator::ConfigBaselineCorrection2","LowThreshold");
287 fBSL2Offset = InRange(Offset,0,1023,"AliTPCAltroEmulator::ConfigBaselineCorrection2","Offset");
288 fBSL2Presamples = InRange(Presamples,0,3,"AliTPCAltroEmulator::ConfigBaselineCorrection2","Presamples");
289 fBSL2Postsamples = InRange(Postsamples,0,15,"AliTPCAltroEmulator::ConfigBaselineCorrection2","Postsamples");
290 fConfiguredBSL2 = 1;
291}
292
293/** @brief Configures the Zero Suppression Module (ZSU)
294 *
295 * Configures the Zero Suppression Module (ZSU).
296 * All configurable values are "Range checked" and if out of the Range set to the nearest extreme.
297 * So the Emulation will work, but the result is maybe not the expected one.
298 *
338e0dd9 299 * @param Threshold an <tt> Int_t </tt> sets the Threshold
300 * @param MinSamplesaboveThreshold an <tt> Int_t </tt> sets the minimum number of samples which have to be greater than the threshold
301 * @param Presamples an <tt> Int_t </tt> sets the number of pre samples which are kept
302 * @param Postsamples an <tt> Int_t </tt> sets the number of post samples which are kept
eb7e0771 303 */
338e0dd9 304void AliTPCAltroEmulator::ConfigZerosuppression(Int_t Threshold, Int_t MinSamplesaboveThreshold, Int_t Presamples, Int_t Postsamples){
eb7e0771 305 //
306 // Configures the Zero Suppression Module (ZSU)
307 //
308 fZSUThreshold = InRange(Threshold,0,1023,"AliTPCAltroEmulator::BaselineCorrection1","Threshold");
309 fZSUMinSamplesaboveThreshold = InRange(MinSamplesaboveThreshold,1,3,"AliTPCAltroEmulator::BaselineCorrection1","MinSamplesaboveThreshold");
310 fZSUPresamples = InRange(Presamples,0,3,"AliTPCAltroEmulator::BaselineCorrection1","Presamples");
311 fZSUPostsamples = InRange(Postsamples,0,7,"AliTPCAltroEmulator::BaselineCorrection1","Postsamples");
eb7e0771 312
338e0dd9 313 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 314 fADCkeep[i] = 0;
315 }
316 fConfiguredZSU = 1;
317}
318
319/** @brief Prints the set Parameters, if module is configured
320 *
321 * Prints the set Parameters, if module is configured.
322 */
323void AliTPCAltroEmulator::PrintParameters(){
324 //
325 // Prints the set Parameters, if module is configured
326 //
327 cout << "+-------------------------------------------+" << endl;
328 cout << "| Configured Parameters of the Altro Module |" << endl;
329 cout << "+-------------------------------------------+" << endl << endl;
330
331 cout << "Parameters set in the Altro Modules:" << endl << endl;
332 cout << "ONBaselineCorrection1: " << fOnBSL1 << endl;
333 cout << "ONTailcancellation : " << fOnTCF << endl;
334 cout << "ONBaselineCorrection2: " << fOnBSL2 << endl;
335 cout << "ONClipping : " << fOnClip << endl;
336 cout << "ONZerosuppression : " << fOnZSU << endl << endl << endl;
337 if(fConfiguredBSL1 == 1){
338 cout << "Parameters set in the BSL1 (Baseline Correction 1) Module:" << endl << endl;
339 cout << "mode : " << fBSL1mode << endl;
340 cout << "ValuePeDestal : " << fBSL1ValuePeDestal << endl;
341 cout << "polarity : " << fBSL1ValuePeDestal << endl << endl << endl;
342 }else{
343 cout << "BSL1 (Baseline Correction 1) Module not configured!" << endl << endl << endl;
344 }
345 if(fConfiguredTCF == 1){
346 cout << "Parameters set in the TCF (TailCancellation Filter) Module:" << endl << endl;
338e0dd9 347 cout << "K1 (int|Float_t) : " << fTCFK1Int << " | " << fTCFK1Int/(Float_t)((1<<16)-1) << endl;
348 cout << "K2 (int|Float_t) : " << fTCFK2Int << " | " << fTCFK2Int/(Float_t)((1<<16)-1) << endl;
349 cout << "K3 (int|Float_t) : " << fTCFK3Int << " | " << fTCFK3Int/(Float_t)((1<<16)-1) << endl;
350 cout << "L1 (int|Float_t) : " << fTCFL1Int << " | " << fTCFL1Int/(Float_t)((1<<16)-1) << endl;
351 cout << "L2 (int|Float_t) : " << fTCFL2Int << " | " << fTCFL2Int/(Float_t)((1<<16)-1) << endl;
352 cout << "L3 (int|Float_t) : " << fTCFL3Int << " | " << fTCFL3Int/(Float_t)((1<<16)-1) << endl << endl << endl;
eb7e0771 353 }else{
354 cout << "TCF (TailCancellation Filter) Module not configured!" << endl << endl << endl;
355 }
356 if(fConfiguredBSL2 == 1){
357 cout << "Parameters set in the BSL2 (Baseline Correction 2) Module:" << endl << endl;
358 cout << "HighThreshold : " << fBSL2HighThreshold << endl;
359 cout << "LowThreshold : " << fBSL2LowThreshold << endl;
360 cout << "Offset : " << fBSL2Offset << endl;
361 cout << "Presamples : " << fBSL2Presamples << endl;
362 cout << "Postsamples : " << fBSL2Postsamples << endl << endl << endl;
363 }else{
364 cout << "BSL2 (Baseline Correction 2) Module not configured!" << endl << endl << endl;
365 }
366 if(fConfiguredZSU == 1){
367 cout << "Parameters set in the ZSU (Zero Suppression Unit) Module:" << endl << endl;
368 cout << "Threshold : " << fZSUThreshold << endl;
369 cout << "MinSampaboveThreshold: " << fZSUMinSamplesaboveThreshold << endl;
370 cout << "Presamples : " << fZSUPresamples << endl;
371 cout << "Postsamples : " << fZSUPostsamples << endl << endl << endl;
372 }else{
373 cout << "ZSU (Zero Suppression Unit) Module not configured!" << endl << endl << endl;
374 }
375}
376
338e0dd9 377
378void AliTPCAltroEmulator::SetChannelData(Int_t timebins, Short_t* channelData) {
379 //
380 // Set channel data, for example a new channel
381 //
382
383 ftimebins = timebins;
384 fChannelShort = channelData;
385
386}
387
388
eb7e0771 389/** @brief Runs the emulation of all configured Modules.
390 *
391 * Runs the emulation of all configured Modules. This changes then the content of the
392 * input Array
393 */
cd10c6cd 394void AliTPCAltroEmulator::RunEmulation(Int_t roc){
eb7e0771 395 //
396 // Runs the emulation of all configured Modules.
397 //
398
338e0dd9 399 if (!fChannelShort) {
400 printf("ERROR cant run Altro Emulation: Channel input not set.\nUse for example: SetChannelData(Int_t timebins, Short_t* Channel)\n");
401 return;
402 }
403
eb7e0771 404 //cout << "AliTPCAltroEmulator::RunEmulation | start" << endl;
405 if(fConfiguredAltro == 0){
406 cout << "ERROR cant run Altro Emulation because not configured" << endl;
407 return;
408 }
409
410 //cout << "AliTPCAltroEmulator::RunEmulation | start BSL1 on: " << fOnBSL1 << " configures: " << fConfiguredBSL1 << endl;
411 if(fOnBSL1 == 1){
412 if(fConfiguredBSL1 == 1){
413 BaselineCorrection1(fBSL1mode, fBSL1ValuePeDestal, fBSL1PedestalMem, fBSL1polarity);
414 }else{
415 cout << "ERROR cant run Baseline Correction 1 because not configured" << endl;
416 return;
417 }
418 }
419
420 //cout << "AliTPCAltroEmulator::RunEmulation | start TCF on: " << fOnTCF << " configures: " << fConfiguredTCF << endl;
421 if(fOnTCF == 1){
cd10c6cd 422 if (roc==-1) { // use one set of TCF params
423 if(fConfiguredTCF == 1){
424 TailCancellationFilterFixedPoint(fTCFK1Int, fTCFK2Int, fTCFK3Int, fTCFL1Int, fTCFL2Int, fTCFL3Int);
425 }else{
426 cout << "ERROR cant run Tail Cancellation Filter because not configured" << endl;
427 return;
428 }
429 } else { // use different TCF params for IROC and OROC
430 if(fConfiguredTCFraw == 1){
431 if (roc==0) //IROC
432 TailCancellationFilterFixedPoint(fTCFK1IntROC[0], fTCFK2IntROC[0], fTCFK3IntROC[0],
433 fTCFL1IntROC[0], fTCFL2IntROC[0], fTCFL3IntROC[0]);
434 else if (roc==1) // OROC
435 TailCancellationFilterFixedPoint(fTCFK1IntROC[1], fTCFK2IntROC[1], fTCFK3IntROC[1],
436 fTCFL1IntROC[1], fTCFL2IntROC[1], fTCFL3IntROC[1]);
437 else
438 cout << "ERROR cant run Tail Cancellation Filter because TCF settings for ROC not found" << endl;
439 } else {
440 cout << "ERROR cant run Tail Cancellation Filter because not configured (for RAW data files!)" << endl;
441 return;
442 }
443
eb7e0771 444 }
445 }
446
447 //cout << "AliTPCAltroEmulator::RunEmulation | start BSL2 on: " << fOnBSL2 << " configures: " << fConfiguredBSL2 << endl;
448 if(fOnBSL2 == 1){
449 if(fConfiguredBSL2 == 1){
450 BaselineCorrection2RTL(fBSL2HighThreshold, fBSL2LowThreshold, fBSL2Offset, fBSL2Presamples, fBSL2Postsamples);
451 }else{
452 cout << "ERROR cant run Baseline Correction 2 because not configured" << endl;
453 return;
454 }
455 }
456 //cout << "AliTPCAltroEmulator::RunEmulation | start CLIP on: " << fOnClip << endl;
457 if(fOnClip == 1){
458 Clipping();
459 }
460 //cout << "AliTPCAltroEmulator::RunEmulation | start ZSU on: " << fOnZSU << " configures: " << fConfiguredZSU << endl;
461 if(fOnZSU == 1){
462 if(fConfiguredZSU == 1){
463 Zerosuppression(fZSUThreshold,fZSUMinSamplesaboveThreshold,fZSUPresamples,fZSUPostsamples);
464 }else{
465 cout << "ERROR cant run Zero Suppression Unit because not configured" << endl;
466 return;
467 }
468 }
338e0dd9 469
470
471
eb7e0771 472}
473
338e0dd9 474void AliTPCAltroEmulator::BaselineCorrection1(Int_t mode, Int_t ValuePeDestal, Int_t *PedestalMem, Int_t polarity){
eb7e0771 475 //
476 // BaselineCorrection1
477 //
478
479 //VPD == 0 !!
338e0dd9 480 Int_t fixedPeDestal = 0;
b3b5d5c9 481
482 // take first and last bins to calculate a mean pedestal value
483 Int_t window = 3;
484 Int_t meanPeDestal = 0;
6036ea97 485 if (mode == kDINxMPD && ftimebins>=6) {
486 for(Int_t i = 0; i < window; i++) {
487 meanPeDestal += fChannelShort[i];
488 meanPeDestal += fChannelShort[ftimebins-1-i];
489 }
490 meanPeDestal /= (window*2);
b3b5d5c9 491 }
6036ea97 492
eb7e0771 493 if(polarity ==1){
338e0dd9 494 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 495 fChannelShort[i] = 1023 - fChannelShort[i];
496 }
497 }
498
499 switch(mode) {
500 case kDINxFPD:
338e0dd9 501 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 502 fChannelShort[i] = fChannelShort[i] - fixedPeDestal;
503 break;
504 case kDINxFT:
338e0dd9 505 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 506 fChannelShort[i] = fChannelShort[i] - PedestalMem[i];
507 break;
508 case kDINxFDIN:
338e0dd9 509 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 510 fChannelShort[i] = fChannelShort[i] - PedestalMem[ fChannelShort[i] ];
511 break;
512 case kDINxFDINxVPD:
338e0dd9 513 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 514 fChannelShort[i] = fChannelShort[i] - PedestalMem[ fChannelShort[i] - ValuePeDestal];
515 break;
516 case kDINxVPDxFPD:
338e0dd9 517 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 518 fChannelShort[i] = fChannelShort[i] - ValuePeDestal - fixedPeDestal;
519 break;
520 case kDINxVPDxFT:
338e0dd9 521 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 522 fChannelShort[i] = fChannelShort[i] - ValuePeDestal - PedestalMem[i];
523 break;
524 case kDINxVPDxFDIN:
338e0dd9 525 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 526 fChannelShort[i] = fChannelShort[i] - ValuePeDestal - PedestalMem[ fChannelShort[i] ];
527 break;
528 case kDINxVPDxFDINxVPD:
338e0dd9 529 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 530 fChannelShort[i] = fChannelShort[i] - ValuePeDestal - PedestalMem[ fChannelShort[i] - ValuePeDestal ];
531 break;
532 case kFDINxFPD:
338e0dd9 533 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 534 fChannelShort[i] = PedestalMem[ fChannelShort[i] ] - fixedPeDestal;
535 break;
536 case kFDINxVPDxFPD:
338e0dd9 537 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 538 fChannelShort[i] = PedestalMem[ fChannelShort[i] - ValuePeDestal ] - fixedPeDestal;
539 break;
540 case kFTxFPD:
338e0dd9 541 for(Int_t i = 0; i < ftimebins; i++)
eb7e0771 542 fChannelShort[i] = PedestalMem[i] - fixedPeDestal;
543 break;
b3b5d5c9 544 case kDINxMPD:
545 for(Int_t i = 0; i < ftimebins; i++)
546 fChannelShort[i] = fChannelShort[i] - meanPeDestal;
547 break;
eb7e0771 548 }
549}
550
338e0dd9 551Int_t AliTPCAltroEmulator::Multiply36(Int_t P, Int_t N){
eb7e0771 552 //
cd10c6cd 553 // multiply function to emulate the 36 bit fixed point multiplication of the Altro.
eb7e0771 554 //
555 long long retval =0;
556 long long temp = 0;
557 long long vAX = 0;
558 temp = (long long)P*(long long)N;
559 vAX = (( Mask(temp,35,18) + ((long long)(-P)<<18) ) + Mask(temp,17,0));
560 if ( Maskandshift(N,17,17) == 1){
561 retval = ((Maskandshift(vAX,35,35)<<17) + Maskandshift(vAX,32,16));
562 }else{
563 retval = Maskandshift(temp,32,16);
564 }
565 return retval;
566}
338e0dd9 567long long AliTPCAltroEmulator::Mask(long long in, Int_t left, Int_t right){
eb7e0771 568 //
338e0dd9 569 // mask
eb7e0771 570 //
571 long long retval;
572 long long pattern;
573 long long length = abs(left - right)+1;
6a281272 574 pattern = ((((long long)1)<<length)-1)<<right;
eb7e0771 575 retval = in&pattern;
576 return retval;
577}
578
338e0dd9 579long long AliTPCAltroEmulator::Maskandshift(long long in, Int_t left, Int_t right){
eb7e0771 580 //
338e0dd9 581 // maskandshift
eb7e0771 582 //
583 long long retval;
584 long long pattern;
585 long long length = abs(left - right)+1;
6a281272 586 pattern = ((((long long)1)<<length)-1);
eb7e0771 587 retval = (in>>right)&pattern;
588 return retval;
589}
590
338e0dd9 591void AliTPCAltroEmulator::TailCancellationFilterFixedPoint(Int_t K1, Int_t K2, Int_t K3, Int_t L1, Int_t L2, Int_t L3){
eb7e0771 592 //
593 // TailCancellationFilterFixedPoint
594 //
338e0dd9 595 Int_t c1n = 0, c2n = 0, c3n = 0;
596 Int_t c1o = 0, c2o = 0, c3o = 0;
597 Int_t d1 = 0, d2 = 0;
598 Int_t dout = 0;
599 Int_t din = 0;
600 Int_t bit = 0;
cd10c6cd 601
602 // printf("%5d %5d %5d %5d %5d %5d\n",K1,K2,K3,L1,L2,L3);
603
338e0dd9 604 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 605 din = fChannelShort[i];
606
607 din = (din<<2);
608 c1n = Mask( (Mask(din,17,0) + Multiply36(K1,Mask(c1o,17,0)) ) ,17,0);
609 d1 = Mask( (Mask(c1n,17,0) - Multiply36(L1,Mask(c1o,17,0)) ) ,17,0);
610 //d1 = Mask( (Mask(c1n,17,0) + Mask(~Multiply36(L1,Mask(c1o,17,0))+1,17,0) ) ,17,0);
611
612 c2n = Mask( (Mask(d1 ,17,0) + Multiply36(K2,Mask(c2o,17,0)) ) ,17,0);
613 d2 = Mask( (Mask(c2n,17,0) - Multiply36(L2,Mask(c2o,17,0)) ) ,17,0);
614 //d2 = Mask( (Mask(c2n,17,0) + Mask(~Multiply36(L2,Mask(c2o,17,0))+1,17,0) ) ,17,0);
615
616 c3n = Mask( (Mask(d2 ,17,0) + Multiply36(K3,Mask(c3o,17,0)) ) ,17,0);
617 dout = Mask( (Mask(c3n,17,0) - Multiply36(L3,Mask(c3o,17,0)) ) ,17,0);
618 //dout = Mask( (Mask(c3n,17,0) + Mask(~Multiply36(L3,Mask(c3o,17,0))+1,17,0) ) ,17,0);
619
620 if( (Maskandshift(dout,2,2) == 1) || (Maskandshift(dout,1,1) == 1)){
621 bit = 1;
622 }else{
623 bit = 0;
624 }
625
626 dout = ((dout>>3)<<1) + bit;
627 if(Maskandshift(dout,15,15) == 1){
628 //is needed to get the correct coding when getting negative results
629 dout = -Mask((-Mask(dout,9,0)),9,0);
630 }else{
631 dout = Mask(dout,9,0);
632 }
633
634 fChannelShort[i] = (short) dout;
635 c1o = c1n;
636 c2o = c2n;
637 c3o = c3n;
638 }
639}
640
338e0dd9 641void AliTPCAltroEmulator::BaselineCorrection2RTL(Int_t HighThreshold, Int_t LowThreshold, Int_t Offset, Int_t Presamples, Int_t Postsamples){
eb7e0771 642 //
643 // BaselineCorrection2RTL
644 //
645
646 //cout << "Altro::BaselineCorrection2RTL | HighThreshold: " << HighThreshold << " LowThreshold: " << LowThreshold << " Offset: " << Offset << " Presamples: " << Presamples << " Postsamples: " << Postsamples << endl;
647 //more or less direct "translation" of the hdl code.
648 //Input signals
338e0dd9 649 Int_t din;
650 Int_t dout;
651 Int_t edges[6]; // = Postsamples*4 + Presamples;
652 Int_t offset = Offset;
653 Int_t thrlo = LowThreshold;//called thr_mau[19] ...
654 Int_t thrhi = HighThreshold;
eb7e0771 655
656 // Variables
338e0dd9 657 Int_t fOld[4]; //flag pipe
658 Int_t fNew[4]; //flag pipe
659 Int_t dOld[4]; //data pipe
660 Int_t dNew[4]; //data pipe
661 Int_t dxOld;
662 Int_t dxNew;
663 Int_t pstscnt; // Counter for Postsamples
664 Int_t zOld[9]; // Filter stages
665 Int_t zNew[9]; // Filter stages
666 Int_t zxOld; //Accumulator stage
667 Int_t zxNew; //Accumulator stage
668 Int_t valcntOld; //Valid sample counter
669 Int_t valcntNew = 0; //Valid sample counter
eb7e0771 670
338e0dd9 671 Int_t valid; //Valid flag
672 Int_t fx; //postsample flag
673 //Int_t s07; // differentiator result
674 Int_t s8; // Acc + Diff result
675 Int_t flag;
676 //Int_t bsth; //baseline threshold
677 //Int_t din_p; //Data input strictly positive
678 Int_t bsl;
679 //Int_t dx_bsls; // dx -bsl
680 //Int_t dx_clip; // dxbsl clipped
681 //Int_t bsl_of = 0;
eb7e0771 682
683 //initialisation
338e0dd9 684 for(Int_t i = 0; i < 9 ; i++)
eb7e0771 685 zOld[i] = 0;
338e0dd9 686 for(Int_t i = 0; i < 4 ; i++){
eb7e0771 687 fOld[i] = 0;
688 dOld[i] = 0;
689 }
690 dxOld= 0;
691 pstscnt = 0;
692 zxOld = 0;
693 valcntOld = 0;
694 valid = 0;
338e0dd9 695 for(Int_t i = 0; i < 2 ; i++){
eb7e0771 696 edges[i] = (Presamples&(1<<i))>>i;
697 }
338e0dd9 698 for(Int_t i = 0; i < 4 ; i++){
eb7e0771 699 edges[(3-i)+2] = (Postsamples&(1<<i))>>i;
700 }
701 /*cout << "edges :";
338e0dd9 702 for(Int_t i = 0; i < 6 ; i++)
eb7e0771 703 cout << edges[i] << ":";
704 cout << " Presamples: " << Presamples << " Postsamples: " << Postsamples << endl;*/
705
706 //Loop
707 //cout << "AliTPCAltroEmulator::BaselineCorrection2_RTL | starting Loop" << endl;
338e0dd9 708 for(Int_t timebin = -12; timebin < ftimebins+10; timebin++){
eb7e0771 709 //cout << "AliTPCAltroEmulator::BaselineCorrection2_RTL | in Loop timebin: " << timebin << endl;
710 din = GetElement(fChannelShort,timebin);
711
712 s8 = zxOld + (zOld[8] - zOld[0]);
713
714 if(valid == 1)
715 bsl = s8>>3;// ...
716 else
717 bsl = 0;
718
719 //assign flag = (din_p > thrhi) | (thrlo > din_p); // Signal samples between thresholds
720 if( (din <= (bsl + thrhi)) && (din >= (bsl - thrlo)) )
721 flag = 0;
722 else
723 flag = 1;
724
725 if(pstscnt == 0)
726 fx = 0;
727 else
728 fx = 1;
729
730 if(valcntOld >= 12)
731 valid = 1;
732 else
733 valid = 0;
734
735 fNew[3] = flag;
736
737 if( (fOld[3] == 1) || ( (flag == 1) && ( (edges[0] == 1) || (edges[1] == 1) ) ) ) //f[2] = f[3] | (flag&(edges[0]|edges[1]));
738 fNew[2] = 1;
739 else
740 fNew[2] = 0;
741
742 if( (fOld[2] == 1) || ( (edges[1] == 1) && (flag == 1) ) ) // f[1] = f[2] | (edges[1] & flag);
743 fNew[1] = 1;
744 else
745 fNew[1] = 0;
746
747 if( ( (fOld[1] == 1) || ( (flag == 1) && (edges[0] == 1) && (edges[1] == 1) ) || (fx==1) ) && (valid==1) ) // f[0] = (f[1] | (edges[1] & edges[0] & flag) | fx) & valid;
748 fNew[0] = 1;
749 else
750 fNew[0] = 0;
751
752 dxNew = dOld[0];
338e0dd9 753 for(Int_t i = 0; i < 3; i++)
eb7e0771 754 dNew[i] = dOld[i+1];
755 dNew[3] = din;
756
757 if( (fOld[1]==1) && (fOld[2]==0) )
758 pstscnt = Postsamples;
759 else if(fx == 1)
760 pstscnt--;
761
762 if(fOld[0] == 0){
763 if(valid == 0)
764 valcntNew = ++valcntOld;
765
766 zxNew = s8;
338e0dd9 767 for(Int_t i = 0; i < 8; i++)
eb7e0771 768 zNew[i] = zOld[i+1];
769 zNew[8] = dOld[0];
770 }else{
771 zxNew = zxOld;
338e0dd9 772 for(Int_t i = 0; i < 9; i++)
eb7e0771 773 zNew[i] = zOld[i];
774 }
775 dout = dxOld - (bsl - offset);
776 //if(dout <0)
777 // dout = 0;
778
779 SetElement(fChannelShort,timebin-5,(short)dout);
780 //sim clockschange
338e0dd9 781 for(Int_t i = 0; i < 9 ; i++)
eb7e0771 782 zOld[i] = zNew[i];
783 zxOld = zxNew;
338e0dd9 784 for(Int_t i = 0; i < 4 ; i++){
eb7e0771 785 fOld[i] = fNew[i];
786 dOld[i] = dNew[i];
787 }
788 dxOld = dxNew;
789 valcntOld = valcntNew;
790 }
791}
792
793void AliTPCAltroEmulator::Clipping(){
794 //
795 // implement if no BC2 clipping has to run
796 //
338e0dd9 797 for(Int_t i = 0; i < ftimebins; i++){
cd10c6cd 798 if(fChannelShort[i] < -1)
799 fChannelShort[i] = -1;
eb7e0771 800 }
801}
802
338e0dd9 803void AliTPCAltroEmulator::Zerosuppression(Int_t Threshold, Int_t MinSamplesaboveThreshold, Int_t Presamples, Int_t Postsamples){
eb7e0771 804 //
805 // add again altro feature
806 //
807
808 //TODO: Implement "Altro zsu merging"
338e0dd9 809 //Int_t Postsamplecounter = 0;
810 //Int_t setPostsample = 0;
cd10c6cd 811
338e0dd9 812 for(Int_t i = 0; i < ftimebins; i++){
b3b5d5c9 813 if(fChannelShort[i] >= Threshold)
eb7e0771 814 fADCkeep[i] = 1;
b3b5d5c9 815 else
816 fADCkeep[i] = 0;
eb7e0771 817 }
338e0dd9 818
819 Int_t startofclustersequence = -1;
820 Int_t endofClustersInSequence = -1;
eb7e0771 821
338e0dd9 822 for(Int_t i = 0; i < ftimebins; i++){
b3b5d5c9 823 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i-1) == 0) ){
eb7e0771 824 startofclustersequence = i;
825 }
b3b5d5c9 826 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i+1) == 0) ){
eb7e0771 827 endofClustersInSequence = i;
828 }
829 //cout << i << " startofclustersequence: " << startofclustersequence << " endofClustersInSequence: " << endofClustersInSequence;
830 if( (startofclustersequence != -1) && (endofClustersInSequence != -1) ){
831 //cout << " found! " << (endofClustersInSequence - startofclustersequence + 1);
832 if ( (endofClustersInSequence - startofclustersequence + 1) < MinSamplesaboveThreshold ){
338e0dd9 833 for(Int_t j = startofclustersequence; j <= endofClustersInSequence ; j++){
eb7e0771 834 fADCkeep[j] = 0;
835 }
836 }
837 startofclustersequence = -1;
838 endofClustersInSequence = -1;
839 }
840 //cout << endl;
841 }
842
338e0dd9 843 /*for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 844 if( (GetElement(fADCkeep,i-1) == 1) && (GetElement(fADCkeep,i) == 0) && (GetElement(fADCkeep,i+1) == 1) ){
845 SetElement(fADCkeep,i,1);
846 }
847 }*/
848
338e0dd9 849 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 850 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i-1) == 0) ){
338e0dd9 851 for(Int_t j = i-Presamples ; j <= i; j++){
eb7e0771 852 SetElement(fADCkeep,j,1);
853 }
854 }
855 }
338e0dd9 856 for(Int_t i = ftimebins; i >= 0; i--){
eb7e0771 857 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i+1) == 0) ){
338e0dd9 858 for(Int_t j = i ; j <= i+Postsamples; j++){
eb7e0771 859 SetElement(fADCkeep,j,1);
860 }
861 }
862 }
863 /*cout << " Postsamplecounter: " << Postsamplecounter;
338e0dd9 864 for(Int_t j = i+1 ; j <= i+Postsamples; j++){
eb7e0771 865 SetElement(fADCkeep,j,1);
866 i+=Postsamples;
867 }
868 cout << endl;
869 }
870 cout << i << " ADCK: " << GetElement(fADCkeep,i);
871 cout << " Postsam: " << Postsamplecounter << " ADCK: " << GetElement(fADCkeep,i);*/
872
338e0dd9 873 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 874 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i+1) == 0) && ( (GetElement(fADCkeep,i+3) == 1) || (GetElement(fADCkeep,i+2) == 1) ) ){
875 SetElement(fADCkeep,i+1,1);
876 SetElement(fADCkeep,i+2,1);
877 }
878 }
338e0dd9 879
880 for(Int_t i = 0; i < ftimebins; i++){
b3b5d5c9 881 if( !GetKeepChannel(i) ) {
cd10c6cd 882 SetElement(fChannelShort,i,-1); // set non relevant data to -1
338e0dd9 883 }
884 }
885
886
eb7e0771 887}
888
889/** @brief formats the data like the ALTRO. Result is a 64 bit array
890 *
891 * formats the data like the ALTRO. Result is a 64 bit array
892 *
893 */
894
7ee86790 895void AliTPCAltroEmulator::DataFormater(){
eb7e0771 896 //
897 // formats the data like the ALTRO. Result is a 64 bit array
898 //
899
900
901}
902
903
904/** @brief calculates the compression out of the bitmask
905 *
906 * calculates the compression out of the bitmask with the set adc values
907 *
338e0dd9 908 * @return \c Float_t consisting of the compression factor
eb7e0771 909 */
338e0dd9 910Float_t AliTPCAltroEmulator::CalculateCompression() {
eb7e0771 911 //
912 // calculates the compression out of the bitmask
913 //
914
915 // calculation is based on altro 10 bit words ..
338e0dd9 916 Int_t sample = 0;
917 Int_t cluster = 0;
918 Int_t data = 0;
919 Float_t retval = 0.0;
eb7e0771 920
338e0dd9 921 for(Int_t i = 0; i < ftimebins; i++){
eb7e0771 922 if(fADCkeep[i] == 1){
923 sample++;
924 }
925 if( (fADCkeep[i] == 1) && (GetElement(fADCkeep,i+1) == 0) ){
926 cluster++;
927 }
928 }
929 data = sample + cluster*2;
930 data = data + data%4 + 4;
931 if(data >0){
338e0dd9 932 retval = ftimebins / (Float_t)data;//num of timebins is equal to max number of samples
eb7e0771 933 }else{
934 retval = 1.0;
935 }
936 return retval;
937}
938
7ee86790 939Short_t AliTPCAltroEmulator::GetElement(short* Array,Int_t index){
eb7e0771 940 //
338e0dd9 941 // GetElement of array
eb7e0771 942 //
943 if (index < 0)
944 return 0;
945 else if(index >= ftimebins)
946 return 0;
947 else
948 return Array[index];
949}
950
338e0dd9 951void AliTPCAltroEmulator::SetElement(short* Array,Int_t index,Short_t value){
eb7e0771 952 //
338e0dd9 953 // SetElement of array
eb7e0771 954 //
955 if (index < 0)
956 return;
957 else if(index >= ftimebins)
958 return;
959 else
960 Array[index] = value;
961}
962
7ee86790 963Int_t AliTPCAltroEmulator::InBand(Int_t ADC,Int_t bsl, Int_t LowThreshold, Int_t HighThreshold){
eb7e0771 964 //
338e0dd9 965 // check if it's within the band of search
eb7e0771 966 //
338e0dd9 967 Int_t fLow = bsl - LowThreshold;
968 Int_t fHigh = bsl + HighThreshold;
eb7e0771 969 if( (ADC <= fHigh) && (ADC >= fLow) )
970 return 1;
971 else
972 return 0;
973}
974
7ee86790 975Int_t AliTPCAltroEmulator::InRange(Int_t parameter,Int_t Low,Int_t High,const char *Module,const char *ParameterName){
eb7e0771 976 //
338e0dd9 977 // checks it it's within the range
eb7e0771 978 //
979
980 char out[255];
338e0dd9 981 Int_t retval;
eb7e0771 982 if(parameter > High){
7ee86790 983 snprintf(out,255,"Error | %s | Parameter %s is to big, has to be %d <= %s <= %d, is %d, now set to %d",Module,ParameterName,Low,ParameterName,High,parameter,High);
eb7e0771 984 cout << out << endl;
985 retval = High;
986 }else if(parameter < Low){
7ee86790 987 snprintf(out,255,"Error | %s | Parameter %s is to small, has to be %d <= %s <= %d, is %d, now set to %d",Module,ParameterName,Low,ParameterName,High,parameter,Low);
eb7e0771 988 cout << out << endl;
989 retval = Low;
990 }else{
991 retval = parameter;
992 }
993 return retval;
994}
995
338e0dd9 996Short_t AliTPCAltroEmulator::GetShortChannel(Int_t i){
eb7e0771 997 //
338e0dd9 998 // GetElement of channel
eb7e0771 999 //
1000 return GetElement(fChannelShort,i);
1001}
1002
338e0dd9 1003Short_t AliTPCAltroEmulator::GetKeepChannel(Int_t i){
eb7e0771 1004 //
338e0dd9 1005 // GetElement of Keep Channel
eb7e0771 1006 //
1007 return GetElement(fADCkeep,i);
1008}
338e0dd9 1009
1010Bool_t AliTPCAltroEmulator::WriteEvent(Int_t ievent) {
1011 //
1012 // Write event to the DDL data folders
1013 //
1014
1015 for (Int_t ddlID=0;ddlID<216;++ddlID) {
1016 Bool_t *channelsDDL=fChannels+ddlID*4096 ;
1017 Short_t *adcsDDL =fADCs +ddlID*4096*1024;
1018 UInt_t *cdhDDL =fCDHs +ddlID*8 ;
1019 UInt_t *trailerDDL =fTrailers+ddlID*9 ;
1020
1021 FILE *file=fopen(Form("%s/raw%d/TPC_%03d.ddl",
1022 fDDLFolderName.Data(),ievent,768+ddlID),
1023 "wb");
7ee86790 1024 if (!file) {
1025 return kFALSE;
1026 } else {
1027 Int_t i32;
1028 // write CDH (first word to be altered later)
1029 for (i32=0;i32<8;++i32)
1030 fRawData[i32]=cdhDDL[i32];
1031
1032 // process payload
1033 for (Int_t hwaddr=0;hwaddr<4096;++hwaddr) if (channelsDDL[hwaddr]) {
1034 Short_t *adcsChannel=adcsDDL+hwaddr*1024;
1035 // merge custers
1036 // TODO: acqusition window
1037 for (Int_t it=0;it<1024-3;++it) {
1038 if (adcsChannel[it]>=0&&adcsChannel[it+3]>=0) {
1039 if (adcsChannel[it+1]<0) {
1040 // printf("merge");
1041 adcsChannel[it+1]=0;
1042 }
1043 if (adcsChannel[it+2]<0) {
1044 // printf("merge");
1045 adcsChannel[it+2]=0;
1046 }
338e0dd9 1047 }
1048 }
7ee86790 1049 Int_t i10=3;
1050 Int_t icw=0;
1051 Int_t its=1;
1052 Int_t cw =0;
1053 Int_t ts =0;
1054 for (Int_t it=1023;it>=0;--it) {
1055 Short_t w10=adcsChannel[it];
1056 if (w10>=0) {
1057 if (cw<0) {
1058 icw=i10++;
1059 its=i10++;
1060 cw =0 ;
1061 ts=it ;
1062 }
1063 fRawData[i32+i10/3]|=w10<<(10*(2-i10%3));
1064 ++i10;
1065 ++cw;
338e0dd9 1066 }
7ee86790 1067 else {
1068 if (cw>=0) {
1069 cw+=2;
1070 fRawData[i32+icw/3]|=cw <<(10*(2-icw%3));
1071 fRawData[i32+its/3]|=ts <<(10*(2-its%3));
1072 cw=-1;
1073 }
338e0dd9 1074 }
1075 }
7ee86790 1076 fRawData[i32]=0x1<<30|(i10-3)<<16|hwaddr;
1077 i32+=(i10+2)/3;
1078
1079 // clean up
1080 for (Int_t i=0;i<1024;++i) adcsChannel[i]=-1;
1081 channelsDDL[hwaddr]=kFALSE;
338e0dd9 1082 }
7ee86790 1083
1084 // write RCU trailer
1085 fRawData[i32]=0x2<<30|(i32-8);i32++;
1086 for (Int_t i=0;i<8;++i)
1087 fRawData[i32++]=trailerDDL[i];
1088
1089 // write first word of CDH
1090 fRawData[0]=i32*4;
1091
1092 Int_t nwritten=fwrite(fRawData,sizeof(UInt_t),i32,file);
5af1bc5b 1093 fclose(file);
1094
7ee86790 1095 if (nwritten!=i32) return kFALSE;
1096
338e0dd9 1097 // clean up
7ee86790 1098 do {fRawData[--i32]=0;} while (i32>0);
338e0dd9 1099 }
338e0dd9 1100 }
1101 return kTRUE;
1102}
1103
1104Bool_t AliTPCAltroEmulator::GDC2DDLs(AliRawVEvent *gdc,Int_t ievent) {
1105 //
1106 // Converte GDC data to DDL format
1107 //
1108 for(Int_t iLDC=0;iLDC<gdc->GetNSubEvents();++iLDC) {
1109 AliRawVEvent *ldc=gdc->GetSubEvent(iLDC);
1110 for(Int_t iEq=0;iEq<ldc->GetNEquipments();++iEq) {
1111 AliRawVEquipment *eq=ldc->GetEquipment(iEq);
1112 AliRawEquipmentHeader *eqHeader=eq->GetEquipmentHeader();
1113 Int_t eqSize=eqHeader->GetEquipmentSize();
1114 if (eqSize>0) {
1115 Int_t ddlIndex;
1116 Int_t detId=AliDAQ::DetectorIDFromDdlID(eqHeader->GetId(),ddlIndex);
1117 Int_t nwritten=0;
1118 FILE *ddlFile=fopen(Form("%s/raw%d/%s",
1119 fDDLFolderName.Data(),
1120 ievent,
1121 AliDAQ::DdlFileName(detId,ddlIndex)),
1122 "wb");
1123 AliRawData *rawData=eq->GetRawData();
1124 if (ddlFile) {
1125 nwritten=fwrite(rawData->GetBuffer(),1,rawData->GetSize(),ddlFile);
1126 fclose(ddlFile);
1127 }
1128 if (nwritten<rawData->GetSize()) return kFALSE;
1129 }
1130 }
1131 }
1132 return kTRUE;
1133}
1134
1135
1136Bool_t AliTPCAltroEmulator::ConvertRawFilesToDate(Int_t nevents) {
1137 //
1138 // Convertes Raw files to Date format
1139 //
1140
1141 // from $ALICE_ROOT/STEER/AliSimulation.cxx
1142
1143 char command[100];
1144 FILE *pipe;
13af8d96 1145
1146 printf(" RAW to DATE CONVERSION: Run Number %d\n",fRunNumber);
1147
1148 if (fRunNumber>0)
338e0dd9 1149 pipe=gSystem->OpenPipe(Form("dateStream -c -s -D -o %s -C -# %d -run %d",
1150 fOutputDateFileName.Data(),
1151 nevents,
13af8d96 1152 fRunNumber),
338e0dd9 1153 "w");
1154 else
1155 pipe=gSystem->OpenPipe(Form("dateStream -c -s -D -o %s -C -# %d",
1156 fOutputDateFileName.Data(),
1157 nevents),
1158 "w");
1159 if (!pipe) {
1160 fprintf(stderr,"error: cannot execute command: %s",command);
1161 return kFALSE;
1162 }
13af8d96 1163
338e0dd9 1164 for (Int_t ievent=0;ievent<nevents;++ievent) {
1165 UInt_t detectorPattern = 0xFFFFFFFF;
1166 fprintf(pipe, "GDC DetectorPattern %u\n", detectorPattern);
1167
1168 Float_t ldc = 0;
1169 Int_t prevLDC = -1;
1170
1171 // loop over detectors and DDLs
1172 for (Int_t iDet = 0; iDet < AliDAQ::kNDetectors; iDet++) {
1173 if (!(iDet<=5 || iDet==17 )) continue;
1174 for (Int_t iDDL = 0; iDDL < AliDAQ::NumberOfDdls(iDet); iDDL++) {
1175 // printf("iDet=%d, iDDL=%d, filenmae=%s\n",iDet,iDDL,filename);
1176 Int_t ddlID = AliDAQ::DdlID(iDet,iDDL);
1177 Int_t ldcID = Int_t(ldc + 0.0001);
1178 ldc += AliDAQ::NumberOfLdcs(iDet) / AliDAQ::NumberOfDdls(iDet);
1179
1180 // check existence and size of raw data file
1181 FILE* file = fopen(Form("%s/raw%d/%s",
1182 fDDLFolderName.Data(),
1183 ievent,
1184 AliDAQ::DdlFileName(iDet,iDDL)),
1185 "rb");
1186 if (!file) continue;
1187 fseek(file, 0, SEEK_END);
1188 unsigned long size = ftell(file);
1189 fclose(file);
1190 if (!size) continue;
1191
1192 if (ldcID != prevLDC) {
1193 fprintf(pipe, " LDC Id %d\n", ldcID);
1194 prevLDC = ldcID;
1195 }
1196 fprintf(pipe,Form(" Equipment Id %d Payload %s/raw%d/%s\n",
1197 ddlID,
1198 fDDLFolderName.Data(),
1199 ievent,
1200 AliDAQ::DdlFileName(iDet,iDDL))
1201 );
1202 }
1203 }
1204 }
1205 Int_t result = gSystem->ClosePipe(pipe);
1206 return (result == 0);
1207}
1208
1209void AliTPCAltroEmulator::InitBuffers() {
1210 //
1211 // Initialization of the Buffers
1212 //
1213 if (!fChannels) fChannels=new Bool_t [216*4096 ];
1214 if (!fCDHs ) fCDHs =new UInt_t [216*8 ];
1215 if (!fADCs ) fADCs =new Short_t[216*4096*1024];
1216 if (!fTrailers) fTrailers=new UInt_t [216*9 ];
1217 if (!fRawData ) fRawData =new UInt_t [ 1*4096*1024]; // be save...
1218
1219 for (Int_t i=0;i<216*4096 ;++i) fChannels[i]=kFALSE;
1220 // no need to init CDHs
1221 for (Int_t i=0;i<216*4096*1024;++i) fADCs [i]=-1 ;
1222 // no need to init trailers
1223 for (Int_t i=0;i< 1*4096*1024;++i) fRawData [i]= 0 ;
1224}
1225
1226Bool_t AliTPCAltroEmulator::ConvertDateToRoot() {
1227 //
1228 // convert a DATE file to a root file with the program "alimdc"
1229 //
1230
1231 // from $ALICE_ROOT/STEER/AliSimulation.cxx
1232
13af8d96 1233 printf(" DATE to ROOT CONVERSION: Run Number %d\n",fRunNumber);
1234
338e0dd9 1235 // ALIMDC setup
1236 const Int_t kDBSize = 2000000000; //2GB
1237 const Int_t kTagDBSize = 1000000000;
1238 const Bool_t kFilter = kFALSE;
1239 const Int_t kCompression = 1;
1240
1241 // AliInfo(Form("converting DATE file %s to root file %s",
1242 // dateFileName, rootFileName));
1243
1244 const char* rawDBFS[2] = { "/tmp/mdc1", "/tmp/mdc2" };
1245 const char* tagDBFS = "/tmp/mdc1/tags";
1246
1247 // User defined file system locations
1248 if (gSystem->Getenv("ALIMDC_RAWDB1"))
1249 rawDBFS[0] = gSystem->Getenv("ALIMDC_RAWDB1");
1250 if (gSystem->Getenv("ALIMDC_RAWDB2"))
1251 rawDBFS[1] = gSystem->Getenv("ALIMDC_RAWDB2");
1252 if (gSystem->Getenv("ALIMDC_TAGDB"))
1253 tagDBFS = gSystem->Getenv("ALIMDC_TAGDB");
1254
1255 gSystem->Exec(Form("rm -rf %s",rawDBFS[0]));
1256 gSystem->Exec(Form("rm -rf %s",rawDBFS[1]));
1257 gSystem->Exec(Form("rm -rf %s",tagDBFS));
1258
1259 gSystem->Exec(Form("mkdir %s",rawDBFS[0]));
1260 gSystem->Exec(Form("mkdir %s",rawDBFS[1]));
1261 gSystem->Exec(Form("mkdir %s",tagDBFS));
1262
1263 Int_t result = gSystem->Exec(Form("alimdc %d %d %d %d %s",
1264 kDBSize, kTagDBSize, kFilter, kCompression, fOutputDateFileName.Data()));
1265 gSystem->Exec(Form("mv %s/*.root %s", rawDBFS[0],fOutputRootFileName.Data()));
1266
1267 gSystem->Exec(Form("rm -rf %s",rawDBFS[0]));
1268 gSystem->Exec(Form("rm -rf %s",rawDBFS[1]));
1269 gSystem->Exec(Form("rm -rf %s",tagDBFS));
1270
1271 return (result == 0);
1272}
1273
1274void AliTPCAltroEmulator::RunEmulationOnRAWdata(AliRawReader *reader, Int_t plotFlag) {
1275 //
1276 // Run the Altro Emulation on a full Raw data set (AliRawReader)
1277 // plus write the outcome in a RAW data format
1278 //
1279
1280 if (!reader) {
1281 printf("ERROR cant run Altro Emulation: AliRawReader is zero. No RAW data file.\n");
1282 return;
1283 }
1284
1285 fReader=reader;
1286 if (fDecoder) delete fDecoder;
1287 fDecoder=new AliTPCRawStreamV3(reader);
1288
1289 InitBuffers();
1290
338e0dd9 1291 Int_t chanCount=0;
b3b5d5c9 1292 TH1F hisO("DINO","DINO",1024,0,1024);
1293 TH1F his("DIN","DIN",1024,0,1024);
338e0dd9 1294 his.GetYaxis()->SetRangeUser(-20,90);
b3b5d5c9 1295 Short_t *data = new Short_t[1024];
cd10c6cd 1296 TCanvas *c1 =0;
1297 if (plotFlag) {
1298 c1 = new TCanvas("c1","c1");
1299 c1->SetGridx(); c1->SetGridy();
1300 }
338e0dd9 1301
1302 // event loop
1303 Int_t ievent=0;
1304 while (fReader->NextEvent()) {
1305
13af8d96 1306 if (fReader->GetRunNumber()>0) fRunNumber=fReader->GetRunNumber();
338e0dd9 1307 gSystem->Exec(Form("mkdir -p %s/raw%d/",fDDLFolderName.Data(),ievent));
1308 GDC2DDLs(const_cast<AliRawVEvent*>(fReader->GetEvent()),ievent);
1309
1310 Int_t ddlC =0;
1311 while (fDecoder->NextDDL()) {
1312 Int_t ddlID=fDecoder->GetDDLNumber();
cd10c6cd 1313 printf("ddl: %d (%d/216)\n",ddlID,++ddlC);
338e0dd9 1314
13af8d96 1315 Bool_t *channelsDDL=fChannels+ddlID*4096 ;
1316 Short_t *adcsDDL =fADCs +ddlID*4096*1024 ;
1317 UInt_t *cdhDDL =fCDHs +ddlID*8 ;
1318 UInt_t *trailerDDL =fTrailers+ddlID*9 ;
338e0dd9 1319
1320 // CDH
1321 for (Int_t i=0;i<8;++i)
b3b5d5c9 1322 // just to show how ugly it is...
1323 cdhDDL[i]=reinterpret_cast<UInt_t*>(const_cast<AliRawDataHeader*>(fReader->GetDataHeader()))[i];
338e0dd9 1324
1325 // PAYLOAD
1326 while (fDecoder->NextChannel()) {
1327 Int_t hwaddr=fDecoder->GetHWAddress();
cd10c6cd 1328 Int_t sector=fDecoder->GetSector();
1329 Int_t row=fDecoder->GetRow();
1330 Int_t pad=fDecoder->GetPad();
338e0dd9 1331 Short_t *adcsChannel=adcsDDL+hwaddr*1024;
1332 while (fDecoder->NextBunch()) {
1333 UInt_t ts =fDecoder->GetStartTimeBin();
1334 Int_t cw =fDecoder->GetBunchLength() ;
1335 const UShort_t *signals=fDecoder->GetSignals() ;
1336 for (Int_t ci=0;ci<cw;++ci) {
1337 Short_t s=signals[ci];
1338 Int_t t=ts-ci;
1339 // TODO aqcuisition window
b3b5d5c9 1340 if (0<=t&&t<(1024-3)) {
338e0dd9 1341 channelsDDL[hwaddr]=kTRUE;
1342 if (adcsChannel[t]<0)
1343 adcsChannel[t]=s;
1344 else
1345 adcsChannel[t]+=s;
1346 if (adcsChannel[t]>0x3ff)
1347 adcsChannel[t]=0x3ff;
1348 }
1349 }
1350 }
1351
cd10c6cd 1352 // search start of aquisition
1353 Int_t t0 = 0; while (adcsChannel[t0]==-1) t0++;
1354 // search end of aquisition
b3b5d5c9 1355 Int_t tE = 1024; while (adcsChannel[tE]==-1) tE--;
338e0dd9 1356
cd10c6cd 1357 // channel is complete - Perform Altro Emulation
1358 if (plotFlag!=0 && !(chanCount%plotFlag) ) {
b3b5d5c9 1359 for (Int_t t=0; t<1024; t++) {
cd10c6cd 1360 his.SetBinContent(t+1,adcsChannel[t]);
338e0dd9 1361 }
cd10c6cd 1362 his.SetTitle(Form("sig_sec%d_row%d_pad%d",sector,row,pad));
1363 his.SetStats(0); his.GetXaxis()->SetTitle("timebin");
1364 his.DrawCopy();
1365 }
1366
1367 // FEED THE ALTRO EMULATOR WITH CLEAN SIGNAL (no aquisition-window ghosts)
b3b5d5c9 1368 Int_t timebins = tE-t0+1;
cd10c6cd 1369 for (Int_t t=t0;t<(t0+timebins);t++)
1370 data[t-t0]=adcsChannel[t];
1371 SetChannelData(timebins,data);
1372
1373 Int_t roc = (sector%36)>=18; // 0 for IROC, 1 for OROC
1374 RunEmulation(roc);
1375 for (Int_t t=t0;t<(t0+timebins);t++)
1376 adcsChannel[t]=data[t-t0];
338e0dd9 1377
cd10c6cd 1378 if (plotFlag!=0 && !(chanCount%plotFlag) ) {
b3b5d5c9 1379 for (Int_t t=0; t<1024; t++)
cd10c6cd 1380 hisO.SetBinContent(t+1,adcsChannel[t]);
1381 hisO.SetStats(0); hisO.SetLineColor(2);
1382 hisO.DrawCopy("same");
338e0dd9 1383
7ee86790 1384 c1->SaveAs(Form("%s/sig_sec%02d_row%02d_pad%03d_%s_%d%d%d%d%d.png",
1385 fDDLFolderName.Data(),sector,row,pad,
1386 fOutputRootFileName.Data(),
1387 fOnBSL1,fOnTCF,fOnBSL2,fOnClip,fOnZSU));
338e0dd9 1388
cd10c6cd 1389 his.Reset();
1390 hisO.Reset();
338e0dd9 1391
338e0dd9 1392 }
cd10c6cd 1393 chanCount++;
338e0dd9 1394
1395 }
1396
1397 // TRAILER
1398 UChar_t *rcuTrailer;
1399 fDecoder->GetRCUTrailerData(rcuTrailer);
1400 for (Int_t i=0;i<= /* (!) */ fDecoder->GetRCUTrailerSize()/4;++i)
b3b5d5c9 1401 trailerDDL[i]=reinterpret_cast<UInt_t*>(rcuTrailer)[i]; // again: UGLY!
338e0dd9 1402
1403 }
1404
13af8d96 1405 if (ddlC>0) WriteEvent(ievent++);
338e0dd9 1406 }
1407
b3b5d5c9 1408 delete[] data; // free space
338e0dd9 1409
1410 // convert to date and back
1411 ConvertRawFilesToDate(ievent);
1412 ConvertDateToRoot();
1413
1414
1415}