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CSCComparatorData.cc
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6 #include <iostream>
7 #include <cstdio>
8 #include <cstring>
9 
10 #ifdef LOCAL_UNPACK
11 bool CSCComparatorData::debug = false;
12 #else
13 #include <atomic>
14 std::atomic<bool> CSCComparatorData::debug{false};
15 #endif
16 
18  : ncfebs_(tmbHeader->NCFEBs()), ntbins_(tmbHeader->NTBins()) {
19  if (tmbHeader != nullptr)
20  theFirmwareVersion = tmbHeader->FirmwareVersion();
21  else
22  theFirmwareVersion = 2007;
23  size_ = nlines();
24  zero();
25 }
26 
27 CSCComparatorData::CSCComparatorData(int ncfebs, int ntbins, int firmware_version)
28  : ncfebs_(ncfebs), ntbins_(ntbins), theFirmwareVersion(firmware_version) {
29  size_ = nlines();
30  zero();
31 }
32 
33 CSCComparatorData::CSCComparatorData(int ncfebs, int ntbins, const unsigned short* buf, int firmware_version)
34  : ncfebs_(ncfebs), ntbins_(ntbins), theFirmwareVersion(firmware_version) {
35  // add two more for odd ntbins, plus one for the e0c
36  // Oct 2004 Rick: e0c line belongs to CSCTMBTrailer
37  size_ = (nlines() % 2 == 1) ? nlines() + 2 : nlines();
38 
39  memcpy(theData, buf, size_ * 2);
40 }
41 
43  for (int ifeb = 0; ifeb < ncfebs_; ++ifeb) {
44  for (int tbin = 0; tbin < ntbins_; ++tbin) {
46  dataWord(ifeb, tbin, layer) = CSCComparatorDataWord(ifeb, tbin, 0);
47  }
48  }
49  }
50 }
51 
52 std::vector<CSCComparatorDigi> CSCComparatorData::comparatorDigis(uint32_t idlayer, unsigned cfeb) {
53  static const bool doStripSwapping = true;
54  bool me1a = (CSCDetId::station(idlayer) == 1) && (CSCDetId::ring(idlayer) == 4);
55  bool zplus = (CSCDetId::endcap(idlayer) == 1);
56  bool me1b = (CSCDetId::station(idlayer) == 1) && (CSCDetId::ring(idlayer) == 1);
57  int layer = CSCDetId::layer(idlayer);
58 
61 
62  //looking for comp output on layer
63  std::vector<CSCComparatorDigi> result;
64 
65  // this is pretty sparse data, so I wish we could check the
66  // data word by word, not bit by bit, but I don't see how to
67  // do the time sequencing that way.
68  for (int distrip = 0; distrip < CSCConstants::NUM_DISTRIPS_PER_CFEB; ++distrip) {
69  uint16_t tbinbitsS0HS0 = 0;
70  uint16_t tbinbitsS0HS1 = 0;
71  uint16_t tbinbitsS1HS0 = 0;
72  uint16_t tbinbitsS1HS1 = 0;
73  for (int tbin = 0; tbin < ntbins_ - 2; ++tbin) {
74  if (bitValue(cfeb, tbin, layer, distrip)) {
77  assert(word.tbin_ == tbin);
78  assert(word.cfeb_ == cfeb);
79  // we have a hit. The next two time samples
80  // are the other two bits in the triad
81  int bit2 = bitValue(cfeb, tbin + 1, layer, distrip);
82  int bit3 = bitValue(cfeb, tbin + 2, layer, distrip);
83  // should count from zero
84  int chamberDistrip = distrip + cfeb * CSCConstants::NUM_DISTRIPS_PER_CFEB;
85  int HalfStrip = 4 * chamberDistrip + bit2 * 2 + bit3;
86  int output = 4 + bit2 * 2 + bit3;
87  /*
88  * Handles distrip logic; comparator output is for pairs of strips:
89  * hit bin dec
90  * x--- 100 4
91  * -x-- 101 5
92  * --x- 110 6
93  * ---x 111 7
94  *
95  */
96 
97  if (debug)
98  LogTrace("CSCComparatorData|CSCRawToDigi")
99  << "fillComparatorOutputs: layer = " << layer << " timebin = " << tbin << " cfeb = " << cfeb
100  << " distrip = " << chamberDistrip << " HalfStrip = " << HalfStrip << " Output " << output << std::endl;
102 
104  if (output == 4)
105  tbinbitsS0HS0 = tbinbitsS0HS0 + (1 << tbin);
106  if (output == 5)
107  tbinbitsS0HS1 = tbinbitsS0HS1 + (1 << tbin);
108  if (output == 6)
109  tbinbitsS1HS0 = tbinbitsS1HS0 + (1 << tbin);
110  if (output == 7)
111  tbinbitsS1HS1 = tbinbitsS1HS1 + (1 << tbin);
112 
113  tbin += 2;
114  }
115  } //end of loop over time bins
116  //we do not have to check over the last couple of time bins if there are no hits since
117  //comparators take 3 time bins
118 
119  // Store digis each of possible four halfstrips for given distrip:
120  if (tbinbitsS0HS0 || tbinbitsS0HS1 || tbinbitsS1HS0 || tbinbitsS1HS1) {
121  unsigned int cfeb_corr = cfeb;
122  unsigned int distrip_corr = distrip;
123 
124  if (doStripSwapping) {
125  // Fix ordering of strips and CFEBs in ME1/1.
126  // SV, 27/05/08: keep CFEB=4 for ME1/a until CLCT trigger logic
127  // stops combining it with the info from the other 4 CFEBs (ME1/b).
128  //
129  if (theFirmwareVersion >= 2013) {
130  if (me1a && zplus) {
131  distrip_corr = 7 - distrip; // 0-7 -> 7-0
132  cfeb_corr = 10 - cfeb;
133  }
134  if (me1b && !zplus) {
135  distrip_corr = 7 - distrip;
136  cfeb_corr = 3 - cfeb;
137  }
138  } else {
139  // if ( me1a ) { cfeb_corr = 0; } // reset 4 to 0
140  if (me1a && zplus) {
141  distrip_corr = 7 - distrip; // 0-7 -> 7-0
142  }
143  if (me1b && !zplus) {
144  distrip_corr = 7 - distrip;
145  cfeb_corr = 3 - cfeb;
146  }
147  }
148  }
149 
150  int strip = 16 * cfeb_corr + 2 * distrip_corr + 1;
151 
152  if (debug)
153  LogTrace("CSCComparatorData|CSCRawToDigi") << "fillComparatorOutputs: cfeb_corr = " << cfeb_corr
154  << " distrip_corr = " << distrip_corr << " strip = " << strip;
155 
156  if (doStripSwapping && ((me1a && zplus) || (me1b && !zplus))) {
157  // Half-strips need to be flipped too.
158  if (tbinbitsS1HS1)
159  result.push_back(CSCComparatorDigi(strip, 0, tbinbitsS1HS1));
160  if (tbinbitsS1HS0)
161  result.push_back(CSCComparatorDigi(strip, 1, tbinbitsS1HS0));
162  if (tbinbitsS0HS1)
163  result.push_back(CSCComparatorDigi(strip + 1, 0, tbinbitsS0HS1));
164  if (tbinbitsS0HS0)
165  result.push_back(CSCComparatorDigi(strip + 1, 1, tbinbitsS0HS0));
166  } else {
167  if (tbinbitsS0HS0)
168  result.push_back(CSCComparatorDigi(strip, 0, tbinbitsS0HS0));
169  if (tbinbitsS0HS1)
170  result.push_back(CSCComparatorDigi(strip, 1, tbinbitsS0HS1));
171  if (tbinbitsS1HS0)
172  result.push_back(CSCComparatorDigi(strip + 1, 0, tbinbitsS1HS0));
173  if (tbinbitsS1HS1)
174  result.push_back(CSCComparatorDigi(strip + 1, 1, tbinbitsS1HS1));
175  }
176  //uh oh ugly ugly ugly!
177  }
178  } //end of loop over distrips
179  return result;
180 }
181 
182 std::vector<CSCComparatorDigi> CSCComparatorData::comparatorDigis(int layer) {
185 
186  std::vector<CSCComparatorDigi> result;
187  for (int cfeb = 0; cfeb < ncfebs_; ++cfeb) {
188  std::vector<CSCComparatorDigi> oneCfebDigi = comparatorDigis(layer, cfeb);
189  result.insert(result.end(), oneCfebDigi.begin(), oneCfebDigi.end());
190  }
191 
192  return result;
193 }
194 
196  int strip = digi.getStrip();
197  int halfstrip = digi.getHalfStrip();
198  int cfeb = digi.getCFEB();
199  int distrip = digi.getDiStrip();
200 
201  // Check the distrip and half-strip number
204  // note that half-strips are not staggered in the packer
206 
207  std::vector<int> timeBinsOn = digi.getTimeBinsOn();
208  for (std::vector<int>::const_iterator tbinItr = timeBinsOn.begin(); tbinItr != timeBinsOn.end(); ++tbinItr) {
209  int tbin = *tbinItr;
210  if (tbin >= 0 && tbin < ntbins_ - 2) {
211  // First triad bit indicates the presence of the hit
212  dataWord(cfeb, tbin, layer).set(distrip, true);
213  // Second bit indicates which of the two strips contains the hit
214  if (strip % 2 == 0)
215  dataWord(cfeb, tbin + 1, layer).set(distrip, true);
216  // Third bit indicates whether the hit is located on the left or on the
217  // right side of the strip.
218  if (digi.getComparator())
219  dataWord(cfeb, tbin + 2, layer).set(distrip, true);
220  }
221  }
222 }
223 
224 /***
225  * Comparator packing version with ME11 strips swapping
226  ***/
227 void CSCComparatorData::add(const CSCComparatorDigi& digi, const CSCDetId& cid) {
228  static const bool doStripSwapping = true;
229  bool me1a = (cid.station() == 1) && (cid.ring() == 4);
230  bool zplus = (cid.endcap() == 1);
231  bool me1b = (cid.station() == 1) && (cid.ring() == 1);
232 
233  unsigned layer = cid.layer();
234 
235  int strip = digi.getStrip();
236  int halfstrip = digi.getHalfStrip();
237  int cfeb = digi.getCFEB();
238  int distrip = digi.getDiStrip();
239  int bit2 = (strip - 1) % 2;
240  int bit3 = digi.getComparator();
241 
242  // Check the distrip and half-strip number
243  if (theFirmwareVersion >= 2013) {
246  // note that half-strips are not staggered in the packer
248  } else {
251  // note that half-strips are not staggered in the packer
253  }
254 
255  // Lets try to do ME11 strip flipping
256  if (doStripSwapping) {
257  if (theFirmwareVersion >= 2013) {
258  if ((me1a || (me1b && (cfeb > CSCConstants::NUM_CFEBS_ME1A_UNGANGED))) && zplus) {
259  distrip = 7 - distrip; // 0-7 -> 7-0
260  cfeb = 10 - cfeb;
261  bit2 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) / 2;
262  bit3 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) % 2;
263  }
264  if (me1b && !zplus && (cfeb < CSCConstants::NUM_CFEBS_ME1B)) {
265  distrip = 7 - distrip;
266  cfeb = 3 - cfeb;
267  bit2 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) / 2;
268  bit3 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) % 2;
269  }
270  } else {
271  if ((me1a || (me1b && (cfeb > CSCConstants::NUM_CFEBS_ME1A_UNGANGED))) && zplus) {
272  distrip = 7 - distrip; // 0-7 -> 7-0
273  bit2 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) / 2;
274  bit3 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) % 2;
275  }
276  if (me1b && !zplus && (cfeb < CSCConstants::NUM_CFEBS_ME1B)) {
277  distrip = 7 - distrip;
278  cfeb = 3 - cfeb;
279  bit2 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) / 2;
280  bit3 = ((31 - (halfstrip % CSCConstants::NUM_HALF_STRIPS_PER_CFEB)) % 4) % 2;
281  }
282  }
283  }
284 
285  std::vector<int> timeBinsOn = digi.getTimeBinsOn();
286  for (std::vector<int>::const_iterator tbinItr = timeBinsOn.begin(); tbinItr != timeBinsOn.end(); ++tbinItr) {
287  int tbin = *tbinItr;
288  if (tbin >= 0 && tbin < ntbins_ - 2) {
289  // First triad bit indicates the presence of the hit
290  dataWord(cfeb, tbin, layer).set(distrip, true);
291  // Second bit indicates which of the two strips contains the hit
292  // if (strip%2 == 0)
293  if (bit2)
294  dataWord(cfeb, tbin + 1, layer).set(distrip, true);
295  // Third bit indicates whether the hit is located on the left or on the
296  // right side of the strip.
297  // if (digi.getComparator())
298  if (bit3)
299  dataWord(cfeb, tbin + 2, layer).set(distrip, true);
300  }
301  }
302 }
303 
305  bool result = true;
306  for (int cfeb = 0; cfeb < ncfebs_; ++cfeb) {
307  for (int tbin = 0; tbin < ntbins_; ++tbin) {
310  const CSCComparatorDataWord& word = dataWord(cfeb, tbin, layer);
311  bool wordIsGood = (word.tbin_ == tbin) && (word.cfeb_ == cfeb);
312  result = result && wordIsGood;
313  if (!wordIsGood && debug) {
314  LogTrace("CSCComparatorData|CSCRawToDigi")
315  << "Bad CLCT data in layer " << layer << " expect CFEB " << cfeb << " tbin " << tbin;
316  LogTrace("CSCComparatorData|CSCRawToDigi") << " See " << word.cfeb_ << " " << word.tbin_;
317  }
318  }
319  }
320  }
321  if (!result)
322  LogTrace("CSCComparatorData|CSCRawToDigi") << "++ Bad CLCT Data ++ ";
323  return result;
324 }
325 
327  for (int i = 0; i < size_; i++) {
328  printf("%04x %04x %04x %04x\n", theData[i + 3], theData[i + 2], theData[i + 1], theData[i]);
329  i += 3;
330  }
331 }
332 
334  CSCComparatorData comparatorData(5, 16);
335  // aim for output 4 in 5th time bin, = 0000000000010000
336  CSCComparatorDigi comparatorDigi1(1, 0, 0x10);
337  // aim for output 5 in 6th time bin, = 0000 0000 0010 0000
338  CSCComparatorDigi comparatorDigi2(39, 1, 0x20);
339  // aim for output 7 in 7th time bin, = 000 0000 0100 0000
340  CSCComparatorDigi comparatorDigi3(80, 1, 0x40);
341 
342  comparatorData.add(comparatorDigi1, 1);
343  comparatorData.add(comparatorDigi2, 4);
344  comparatorData.add(comparatorDigi3, 6);
345 
346  CSCDetId layer1(1, 4, 1, 2, 1);
347  CSCDetId layer4(1, 4, 1, 2, 4);
348  CSCDetId layer6(1, 4, 1, 2, 6);
349 
350  std::vector<CSCComparatorDigi> digis1 = comparatorData.comparatorDigis(1);
351  std::vector<CSCComparatorDigi> digis2 = comparatorData.comparatorDigis(4);
352  std::vector<CSCComparatorDigi> digis3 = comparatorData.comparatorDigis(6);
353 
354  assert(digis1.size() == 1);
355  assert(digis2.size() == 1);
356  assert(digis3.size() == 1);
357 
358  assert(digis1[0].getStrip() == 1);
359  assert(digis1[0].getComparator() == 0);
360  assert(digis1[0].getTimeBin() == 4);
361 
362  assert(digis2[0].getStrip() == 39);
363  assert(digis2[0].getComparator() == 1);
364  assert(digis2[0].getTimeBin() == 5);
365 
366  assert(digis3[0].getStrip() == 80);
367  assert(digis3[0].getComparator() == 1);
368  assert(digis3[0].getTimeBin() == 6);
369 }
int getComparator() const
Get Comparator readings. Can be 0 or 1.
void set(int distrip, bool value)
@ not right! doesn&#39;t set zero
bool bitValue(int cfeb, int tbin, int layer, int distrip)
int layer() const
Definition: CSCDetId.h:56
assert(be >=bs)
static void selfTest()
#define LogTrace(id)
int getCFEB() const
Get the CFEB number. Counts from 0.
uint64_t word
CSCComparatorDataWord & dataWord(int iline) const
std::vector< int > getTimeBinsOn() const
int getHalfStrip() const
Get the associated halfstrip number for this comparator digi. Counts from 0.
int FirmwareVersion() const
Definition: CSCTMBHeader.h:40
static int minLayerId()
Definition: CSCDetId.h:242
int station() const
Definition: CSCDetId.h:79
void add(const CSCComparatorDigi &digi, int layer)
TODO for packing. Doesn&#39;t do flipping yet.
int endcap() const
Definition: CSCDetId.h:85
CSCComparatorData(const CSCTMBHeader *tmbHeader)
int getStrip() const
Get the strip number. Counts from 1.
static std::atomic< bool > debug
int getDiStrip() const
Get the distrip number. Counts from 0.
std::vector< CSCComparatorDigi > comparatorDigis(int layer)
layers count from one
unsigned short theData[7 *6 *32]
Definition: output.py:1
int ring() const
Definition: CSCDetId.h:68
static int maxLayerId()
Definition: CSCDetId.h:243