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00001 #include "EventFilter/CSCRawToDigi/interface/CSCEventData.h"
00002 #include "EventFilter/CSCRawToDigi/interface/CSCCFEBData.h"
00003 #include "DataFormats/CSCDigi/interface/CSCStripDigi.h"
00004 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00005 #include "EventFilter/CSCRawToDigi/src/cscPackerCompare.h"
00006 #include <iostream>
00007 #include <iterator>
00008 #include "EventFilter/CSCRawToDigi/src/bitset_append.h"
00009 #include "FWCore/Utilities/interface/Exception.h"
00010 
00011 
00012 bool CSCEventData::debug = false;
00013 
00014 CSCEventData::CSCEventData(int chamberType) : 
00015   theDMBHeader(), 
00016   theALCTHeader(0), 
00017   theAnodeData(0),
00018   theALCTTrailer(0),
00019   theTMBData(0),
00020   theDMBTrailer(),
00021   theChamberType(chamberType),
00022   alctZSErecovered(0),
00023   zseEnable(0)
00024 {
00025   
00026   for(unsigned i = 0; i < 5; ++i) {
00027     theCFEBData[i] = 0;
00028   }
00029 }
00030 
00031 
00032 CSCEventData::CSCEventData(unsigned short * buf){
00033   unpack_data(buf);
00034 }
00035 
00036 
00037 void CSCEventData::unpack_data(unsigned short * buf)
00038 {
00039   // zero everything
00040   init();
00041   unsigned short * pos = buf;
00042   if(debug)    {
00043     LogTrace ("CSCEventData|CSCRawToDigi") << "The event data ";
00044     for(int i = 0; i < 16; ++i){
00045       LogTrace ("CSCEventData|CSCRawToDigi") << std::hex << pos[i ] << " ";
00046     }
00047     }
00048    
00049   theDMBHeader = CSCDMBHeader(pos);
00050   if(!(theDMBHeader.check())) {
00051     LogTrace ("CSCEventData|CSCRawToDigi")  << "Bad DMB Header??? " << " first four words: ";
00052     for(int i = 0; i < 4; ++i){
00053       LogTrace ("CSCEventData|CSCRawToDigi") << std::hex << pos[i ] << " ";
00054     }
00055   }
00056   
00057       
00058   if (debug) {
00059     LogTrace ("CSCEventData|CSCRawToDigi") << "nalct = " << nalct();
00060     LogTrace ("CSCEventData|CSCRawToDigi") << "nclct = " << nclct();
00061   }
00062 
00063   if (debug)  {
00064     LogTrace ("CSCEventData|CSCRawToDigi") << "size in words of DMBHeader" << theDMBHeader.sizeInWords();
00065     LogTrace ("CSCEventData|CSCRawToDigi") << "sizeof(DMBHeader)" << sizeof(theDMBHeader); 
00066   }
00067    
00068   pos += theDMBHeader.sizeInWords();
00069   
00070   if (nalct() ==1)  {
00071     if (isALCT(pos)) {//checking for ALCTData
00072       theALCTHeader = new CSCALCTHeader( pos );
00073       if(!theALCTHeader->check()){  
00074         LogTrace ("CSCEventData|CSCRawToDigi") <<"+++WARNING: Corrupt ALCT data - won't attempt to decode";
00075       } 
00076       else {
00077         //dataPresent|=0x40;
00078         pos += theALCTHeader->sizeInWords(); //size of the header
00079         //fill ALCT Digis
00080         theALCTHeader->ALCTDigis();
00081  
00082         //theAnodeData = new CSCAnodeData(*theALCTHeader, pos);
00083         
00084         
00086         /*
00087         std::cout << " ****The ALCT information from CSCEventData.cc (begin)**** " << std::endl; ///to_rm
00088         std::cout << " alctHeader2007().size: " << theALCTHeader->alctHeader2007().sizeInWords() << std::endl; ///to_rm
00089         std::cout << " ALCT Header Content: " << std::endl; ///to_rm
00091         for(int k=0; k<theALCTHeader->sizeInWords(); k+=4){
00092            std::cout << std::hex << theALCTHeader->data()[k+3] 
00093                      << " " << theALCTHeader->data()[k+2]
00094                      << " " << theALCTHeader->data()[k+1]
00095                      << " " << theALCTHeader->data()[k] << std::dec << std::endl;
00096            }
00097          */
00098         //std::cout << " ALCT Size: " << theAnodeData->sizeInWords() << std::endl;
00100         // int zseEnable = 0;
00101         zseEnable = (theALCTHeader->data()[5] & 0x1000) >> 12;
00102         //std::cout << " ZSE Bit: " <<  zseEnable << std::endl; /// to_rm
00103         int sizeInWord_ZSE =0;
00104 
00105         //alctZSErecovered = new unsigned short [theAnodeData->sizeInWords()];
00106 
00107         if(zseEnable){
00110         int  nWGs_per_layer = ( (theALCTHeader->data()[6]&0x0007) + 1 ) * 16 ;
00112         int nWG_round_up   = int(nWGs_per_layer/12)+(nWGs_per_layer%3?1:0);
00113         //std::cout << " Words per layer: " << nWG_round_up << std::endl; ///to_rm
00114         unsigned short * posZSE = pos;
00115         std::vector<unsigned short> alctZSErecoveredVector;
00116         alctZSErecoveredVector.clear();
00117 
00118         //alctZSErecovered = new unsigned short [theAnodeData->sizeInWords()];
00119         //delete [] alctZSErecovered;
00120         //std::cout << " ALCT Buffer with ZSE: " << std::endl; ///to_rm
00124         //unsigned short * posZSEdebug = pos; ///to_rm
00125 
00127         /*
00128         while (*posZSEdebug != 0xDE0D){
00129               unsigned short d = *posZSEdebug;
00130               unsigned short c = *(posZSEdebug+1);
00131               unsigned short b = *(posZSEdebug+2);
00132               unsigned short a = *(posZSEdebug+3);
00133               posZSEdebug+=4;
00134               std::cout << std::hex << a << " " << b << " " << c << " " << d << std::dec << std::endl;
00135         }
00136         */
00138 
00140         int alctZSErecoveredPos=0;
00141         while (*posZSE != 0xDE0D){              
00142               if( (*posZSE == 0x1000) && (*posZSE != 0x3000)){
00143                 for(int j=0; j<nWG_round_up; j++){
00144                    alctZSErecoveredVector.push_back(0x0000);
00145                 }
00146                 alctZSErecoveredPos+=nWG_round_up;
00147               }
00148               else {
00149               alctZSErecoveredVector.push_back(*posZSE);
00150               ++alctZSErecoveredPos;
00151               }               
00152               posZSE++;
00153               sizeInWord_ZSE++;
00154         }
00155 
00156         alctZSErecovered = new unsigned short [alctZSErecoveredVector.size()];
00157         
00159         for(int l=0; l<(int)alctZSErecoveredVector.size(); l++){
00160             alctZSErecovered[l]=alctZSErecoveredVector[l];
00161         }
00162  
00163         unsigned short *posRecovered = alctZSErecovered;
00164         theAnodeData = new CSCAnodeData(*theALCTHeader, posRecovered);
00165         
00168         /*
00169         std::cout << " The ALCT payload recovered: " << std::endl;
00170         for(int k=0; k<theAnodeData->sizeInWords(); k+=4){
00171            std::cout << std::hex << alctZSErecovered[k+3] << " "
00172                                  << alctZSErecovered[k+2] << " "
00173                                  << alctZSErecovered[k+1] << " "
00174                                  << alctZSErecovered[k] << std::dec << std::endl;
00175         }
00176         */
00177         //delete [] alctZSErecovered;
00178         //std::cout << " ALCT SizeZSE : " << sizeInWord_ZSE << std::endl; ///to_rm
00179         //std::cout << " ALCT SizeZSE Recovered: " << alctZSErecoveredPos << std::endl; ///to_rm
00180         //std::cout << " ALCT Size Expected: " << theAnodeData->sizeInWords() << std::endl; ///to_rm
00181         pos +=sizeInWord_ZSE;
00182         }
00183         else{
00184         //pos +=sizeInWord_ZSE;
00185         theAnodeData = new CSCAnodeData(*theALCTHeader, pos);
00186         pos += theAnodeData->sizeInWords(); // size of the data is determined during unpacking 
00187         }       
00188         //std::cout << " ****The ALCT information from CSCEventData.cc (end)**** " << std::endl; ///to_rm
00189         theALCTTrailer = new CSCALCTTrailer( pos );
00190         pos += theALCTTrailer->sizeInWords();
00191       }
00192     } 
00193     else {
00194       LogTrace ("CSCEventData|CSCRawToDigi") << "Error:nalct reported but no ALCT data found!!!";
00195     }
00196   }
00197 
00198   if (nclct() ==1)  {
00199     if (isTMB(pos)) {
00200       //dataPresent|=0x20;
00201       theTMBData = new CSCTMBData(pos);  //fill all TMB data
00202       pos += theTMBData->size();
00203     }
00204     else {
00205       LogTrace ("CSCEventData|CSCRawToDigi") << "Error:nclct reported but no TMB data found!!!";
00206     }
00207   }
00208 
00209   //now let's try to find and unpack the DMBTrailer
00210   bool dmbTrailerReached= false;
00211   for (int i=0; i<12000; ++i) {//8000 max for cfeb + 1980ALCT + 287 TMB
00212     dmbTrailerReached =
00213       (*(i+pos) & 0xF000) == 0xF000 && (*(i+pos+1) & 0xF000) == 0xF000
00214       && (*(i+pos+2) & 0xF000) == 0xF000 && (*(i+pos+3) & 0xF000) == 0xF000
00215       && (*(i+pos+4) & 0xF000) == 0xE000 && (*(i+pos+5) & 0xF000) == 0xE000
00216       && (*(i+pos+6) & 0xF000) == 0xE000 && (*(i+pos+7) & 0xF000) == 0xE000;
00217     if (dmbTrailerReached) {
00218       theDMBTrailer = *( (CSCDMBTrailer *) (pos+i) );
00219       break;
00220     }
00221   }
00222   if (dmbTrailerReached) {
00223     for(int icfeb = 0; icfeb < 5; ++icfeb)  {
00224       theCFEBData[icfeb] = 0;
00225       int cfeb_available = theDMBHeader.cfebAvailable(icfeb);
00226       unsigned int cfebTimeout = theDMBTrailer.cfeb_starttimeout | theDMBTrailer.cfeb_endtimeout;    
00227       //cfeb_available cannot be trusted - need additional verification!
00228       if ( cfeb_available==1 )   {
00229         if ((cfebTimeout >> icfeb) & 1) {
00230           if (debug) LogTrace ("CSCEventData|CSCRawToDigi") << "CFEB Timed out! ";
00231         } else {
00232           //dataPresent|=(0x1>>icfeb);
00233           // Fill CFEB data and convert it into cathode digis
00234           theCFEBData[icfeb] = new CSCCFEBData(icfeb, pos);
00235           pos += theCFEBData[icfeb]->sizeInWords();
00236         }
00237       }
00238     }   
00239     pos += theDMBTrailer.sizeInWords();
00240     size_ = pos-buf;
00241   }
00242   else {
00243     LogTrace ("CSCEventData|CSCRawToDigi") << "Critical Error: DMB Trailer was not found!!! ";
00244   }
00245 }
00246 
00247 bool CSCEventData::isALCT(const short unsigned int * buf) {
00248   return (((buf[0]&0xFFFF)==0xDB0A)||(((buf[0]&0xF800)==0x6000)&&((buf[1]&0xF800)==0)));
00249 }
00250 
00251 bool CSCEventData::isTMB(const short unsigned int * buf) {
00252   return ((buf[0]&0xFFF)==0xB0C);
00253 }
00254 
00255 
00256 
00257 CSCEventData::CSCEventData(const CSCEventData & data) {
00258   copy(data);
00259 }
00260 
00261 CSCEventData::~CSCEventData() {
00262   destroy();
00263 }
00264 
00265 
00266 CSCEventData CSCEventData::operator=(const CSCEventData & data) {
00267   // check for self-assignment before destructing
00268   if(&data != this) destroy();
00269   copy(data);
00270   return *this;
00271 }
00272 
00273 
00274 void CSCEventData::init() {
00275   //dataPresent = 0;
00276   theALCTHeader = 0;
00277   theAnodeData = 0;
00278   theALCTTrailer = 0;
00279   theTMBData = 0;
00280   for(int icfeb = 0; icfeb < 5; ++icfeb) {
00281     theCFEBData[icfeb] = 0;
00282   }
00283   alctZSErecovered=0;
00284   zseEnable=0;
00285 }
00286 
00287 
00288 void CSCEventData::copy(const CSCEventData & data) {
00289   init();
00290   theDMBHeader  = data.theDMBHeader;
00291   theDMBTrailer = data.theDMBTrailer;
00292   if(data.theALCTHeader != NULL)
00293     theALCTHeader  = new CSCALCTHeader(*(data.theALCTHeader));
00294   if(data.theAnodeData != NULL) 
00295     theAnodeData   = new CSCAnodeData(*(data.theAnodeData));
00296   if(data.theALCTTrailer != NULL) 
00297     theALCTTrailer = new CSCALCTTrailer(*(data.theALCTTrailer));
00298   if(data.theTMBData != NULL) 
00299     theTMBData     = new CSCTMBData(*(data.theTMBData));
00300   for(int icfeb = 0; icfeb < 5; ++icfeb) {
00301     theCFEBData[icfeb] = 0;
00302     if(data.theCFEBData[icfeb] != NULL) 
00303       theCFEBData[icfeb] = new CSCCFEBData(*(data.theCFEBData[icfeb]));
00304   }   
00305   size_  = data.size_;
00306   theChamberType = data.theChamberType;
00307   
00308 }
00309 
00310 
00311 void CSCEventData::destroy() {
00312   if(zseEnable){
00313   delete [] alctZSErecovered;
00314   }
00315   delete theALCTHeader;
00316   delete theAnodeData;
00317   delete theALCTTrailer;
00318   delete theTMBData;
00319   for(int icfeb = 0; icfeb < 5; ++icfeb) {
00320     delete theCFEBData[icfeb];
00321   }
00322 /*
00323   std::cout << "Before delete alctZSErecovered " << std::endl;
00324   delete [] alctZSErecovered;
00325   std::cout << "After delete alctZSErecovered " << std::endl;
00326 */  
00327 }
00328 
00329 
00330 std::vector<CSCStripDigi> CSCEventData::stripDigis(const CSCDetId & idlayer) const {
00331   std::vector<CSCStripDigi> result;
00332   for(unsigned icfeb = 0; icfeb < 5; ++icfeb){
00333     std::vector<CSCStripDigi> newDigis = stripDigis(idlayer, icfeb);
00334     result.insert(result.end(), newDigis.begin(), newDigis.end());
00335   }
00336   return result;
00337 }
00338 
00339 
00340 std::vector<CSCStripDigi> CSCEventData::stripDigis(unsigned idlayer, unsigned icfeb) const {
00341   //  assert(ilayer > 0 && ilayer <= 6); // off because now idlayer is raw cscdetid
00342   std::vector<CSCStripDigi> result;
00343   if(theCFEBData[icfeb] != NULL) {
00344     std::vector<CSCStripDigi> newDigis = theCFEBData[icfeb]->digis(idlayer);
00345     result.insert(result.end(), newDigis.begin(), newDigis.end());
00346   }
00347   
00348   return result;
00349 }
00350 
00351 
00352 std::vector<CSCWireDigi> CSCEventData::wireDigis(unsigned ilayer) const {
00353   if(theAnodeData == 0)    {
00354     return std::vector<CSCWireDigi>();
00355   } 
00356   else    {
00357     return theAnodeData->wireDigis(ilayer);
00358   }
00359 }
00360 
00361 
00362 std::vector < std::vector<CSCStripDigi> > CSCEventData::stripDigis() const {
00363   std::vector < std::vector<CSCStripDigi> > result;
00364   for (int layer = 1; layer <= 6; ++layer) {
00365     std::vector<CSCStripDigi> digis = stripDigis(layer);
00366     result.push_back(digis);
00367   }
00368   return result;
00369 }
00370 
00371 std::vector < std::vector<CSCWireDigi> > CSCEventData::wireDigis() const {
00372   std::vector < std::vector<CSCWireDigi> > result;
00373   for (int layer = 1; layer <= 6; ++layer)     {
00374     result.push_back(wireDigis(layer));
00375   }
00376   return result;
00377 }
00378 
00379 
00380 CSCCFEBData* CSCEventData::cfebData(unsigned icfeb) const {
00381   return theCFEBData[icfeb];
00382 }
00383 
00384 
00385 CSCALCTHeader* CSCEventData::alctHeader() const{
00386   if(nalct() == 0) throw cms::Exception("No ALCT for this chamber");
00387   return theALCTHeader;
00388 }
00389 
00390 CSCALCTTrailer * CSCEventData::alctTrailer() const{
00391   if(nalct() == 0) throw cms::Exception("No ALCT for this chamber");
00392   return theALCTTrailer;
00393 }
00394 
00395 
00396 CSCAnodeData * CSCEventData::alctData() const {
00397   if(nalct() == 0) throw cms::Exception("No ALCT for this chamber");
00398   return theAnodeData;
00399 }
00400 
00401 CSCTMBData * CSCEventData::tmbData() const {
00402   if(nclct() == 0) throw cms::Exception("No CLCT for this chamber");
00403   return theTMBData;
00404 }
00405 
00406 
00407 CSCTMBHeader * CSCEventData::tmbHeader() const {
00408   if((nclct() == 0)||(tmbData()==NULL)) throw cms::Exception("No CLCT header for this chamber");
00409   return tmbData()->tmbHeader();
00410 }
00411 
00412 CSCCLCTData * CSCEventData::clctData() const {
00413   if((nclct() == 0)||(tmbData()==NULL)) throw cms::Exception("No CLCT data for this chamber");
00414   return tmbData()->clctData();
00415 }
00416 
00417 
00418 void CSCEventData::setEventInformation(int bxnum, int lvl1num) {
00419   theDMBHeader.setBXN(bxnum);
00420   theDMBHeader.setL1A(lvl1num);
00421   if(theALCTHeader)     {
00422     theALCTHeader->setEventInformation(theDMBHeader);
00423   }
00424   if(theTMBData)  {
00425     theTMBData->tmbHeader()->setEventInformation(theDMBHeader);
00426   }
00427 }
00428     
00429 
00430 void CSCEventData::checkALCTClasses() {
00431   if(theAnodeData == NULL)
00432   {
00433     assert(theChamberType>0);
00434     theALCTHeader = new CSCALCTHeader(theChamberType);
00435     theALCTHeader->setEventInformation(theDMBHeader);
00436     theAnodeData = new CSCAnodeData(*theALCTHeader);
00437     int size = theALCTHeader->sizeInWords() + theAnodeData->sizeInWords() + CSCALCTTrailer::sizeInWords();
00438     theALCTTrailer = new CSCALCTTrailer(size, theALCTHeader->alctFirmwareVersion());
00439     // set data available flag
00440     theDMBHeader.addNALCT();
00441   }
00442 }
00443 
00444 
00445 void CSCEventData::checkTMBClasses() 
00446 {
00447   if(theTMBData == NULL)    {
00448     theTMBData = new CSCTMBData();
00449     theTMBData->tmbHeader()->setEventInformation(theDMBHeader);
00450     theDMBHeader.addNCLCT();
00451   }
00452 }
00453 
00454 
00455 void CSCEventData::add(const CSCStripDigi & digi, int layer) {
00456   //@@ need special logic here for ME11
00457   unsigned cfeb = (digi.getStrip()-1)/16;
00458   bool sixteenSamples = false;
00459   if (digi.getADCCounts().size()==16) sixteenSamples = true;  
00460   if(theCFEBData[cfeb] == 0)    {
00461     theCFEBData[cfeb] = new CSCCFEBData(cfeb, sixteenSamples);
00462     theDMBHeader.addCFEB(cfeb);
00463   }
00464   theCFEBData[cfeb]->add(digi, layer);
00465 }
00466 
00467 
00468 void CSCEventData::add(const CSCWireDigi & digi, int layer) {
00469   checkALCTClasses();
00470   theAnodeData->add(digi, layer);
00471   theALCTHeader->setDAVForChannel(digi.getWireGroup());
00472 }
00473 
00474 void CSCEventData::add(const CSCComparatorDigi & digi, int layer) {
00475   checkTMBClasses();
00476   theTMBData->clctData()->add(digi, layer);
00477 }
00478 
00479 
00480 
00481 void CSCEventData::add(const std::vector<CSCALCTDigi> & digis) {
00482   checkALCTClasses();
00483   theALCTHeader->add(digis);
00484 }
00485 
00486 
00487 void CSCEventData::add(const std::vector<CSCCLCTDigi> & digis) {
00488   checkTMBClasses();
00489   theTMBData->tmbHeader()->add(digis);
00490 }
00491 
00492 void CSCEventData::add(const std::vector<CSCCorrelatedLCTDigi> & digis) {
00493   checkTMBClasses();
00494   theTMBData->tmbHeader()->add(digis);
00495 }
00496 
00497 
00498 
00499 
00500 std::ostream & operator<<(std::ostream & os, const CSCEventData & evt) {
00501   for(int ilayer = 1; ilayer <= 6; ++ilayer)     {
00502     std::vector<CSCStripDigi> stripDigis = evt.stripDigis(ilayer);
00503     //copy(stripDigis.begin(), stripDigis.end(), std::ostream_iterator<CSCStripDigi>(os, "\n"));
00504     //print your scas here
00505     std::vector<CSCWireDigi> wireDigis = evt.wireDigis(ilayer);
00506     //copy(wireDigis.begin(), wireDigis.end(), std::ostream_iterator<CSCWireDigi>(os, "\n"));
00507   }
00508   return os;
00509 }
00510 
00511 boost::dynamic_bitset<> CSCEventData::pack() {
00512   boost::dynamic_bitset<> result = bitset_utilities::ushortToBitset( theDMBHeader.sizeInWords()*16, 
00513                                                                      theDMBHeader.data());
00514 
00515   if(theALCTHeader != NULL)     {
00516     boost::dynamic_bitset<> alctHeader = theALCTHeader->pack();
00517     result = bitset_utilities::append(result, alctHeader);
00518   }
00519   if(theAnodeData != NULL) {
00520     boost::dynamic_bitset<> anodeData = bitset_utilities::ushortToBitset (theAnodeData->sizeInWords()*16,
00521                                                                           theAnodeData->data());
00522     result = bitset_utilities::append(result, anodeData);
00523   }
00524   if(theALCTTrailer != NULL)  {
00525     boost::dynamic_bitset<> alctTrailer =bitset_utilities::ushortToBitset(theALCTTrailer->sizeInWords()*16,
00526                                                                           theALCTTrailer->data());
00527     result = bitset_utilities::append(result, alctTrailer);
00528   }
00529   if(theTMBData != NULL)  {
00530     result  = bitset_utilities::append(result, theTMBData->pack());
00531   }
00532 
00533   for(int icfeb = 0;  icfeb < 5;  ++icfeb)  {
00534     if(theCFEBData[icfeb] != NULL){
00535       boost::dynamic_bitset<> cfebData = bitset_utilities::ushortToBitset(theCFEBData[icfeb]->sizeInWords()*16,
00536                                                                           theCFEBData[icfeb]->data());
00537       result = bitset_utilities::append(result, cfebData);
00538     }
00539   }
00540   
00541   boost::dynamic_bitset<> dmbTrailer = bitset_utilities::ushortToBitset( theDMBTrailer.sizeInWords()*16,
00542                                                                          theDMBTrailer.data());
00543   result = bitset_utilities::append(result, dmbTrailer);
00544   return result;
00545 }
00546 
00547 
00548 void CSCEventData::selfTest() {
00549   CSCEventData chamberData(5);
00550   CSCDetId detId(1, 3, 2, 1, 3);
00551   std::vector<CSCCLCTDigi> clctDigis;
00552   // Both CLCTs are read-out at the same (pre-trigger) bx, so the last-but-one
00553   // arguments in both digis must be the same.
00554   clctDigis.push_back(CSCCLCTDigi(1, 1, 4, 1, 0, 30, 3, 2, 1)); // valid for 2007
00555   clctDigis.push_back(CSCCLCTDigi(1, 1, 2, 1, 1, 31, 1, 2, 2));
00556   
00557   // BX of LCT (8th argument) is 1-bit word (the least-significant bit
00558   // of ALCT's bx).
00559   std::vector<CSCCorrelatedLCTDigi> corrDigis;
00560   corrDigis.push_back(CSCCorrelatedLCTDigi(1, 1, 2, 10, 98, 5, 0, 1, 0, 0, 0, 0));
00561   corrDigis.push_back(CSCCorrelatedLCTDigi(2, 1, 2, 20, 15, 9, 1, 0, 0, 0, 0, 0));
00562 
00563   chamberData.add(clctDigis);
00564   chamberData.add(corrDigis);
00565 
00566   CSCWireDigi wireDigi(10, 6);
00567   CSCComparatorDigi comparatorDigi(30, 1, 6);
00568   chamberData.add(wireDigi, 3);
00569   chamberData.add(comparatorDigi, 3);
00570 
00571   CSCEventData newData = cscPackAndUnpack(chamberData);
00572 
00573   std::vector<CSCCLCTDigi> clcts = newData.tmbHeader()->CLCTDigis(detId.rawId());
00574   assert(cscPackerCompare(clcts[0],clctDigis[0]));
00575   assert(cscPackerCompare(clcts[1],clctDigis[1]));
00576 
00577   std::vector<CSCCorrelatedLCTDigi> lcts = newData.tmbHeader()->CorrelatedLCTDigis(detId.rawId());
00578   assert(cscPackerCompare(lcts[0], corrDigis[0]));
00579   assert(cscPackerCompare(lcts[1], corrDigis[1]));
00580 
00581   // test strip digis
00582   CSCDetId me1adet1(1, 1, 1, 4, 1);
00583   CSCDetId me1bdet1(1, 1, 4, 4, 6);
00584   CSCDetId me1adet2(2, 1, 1, 4, 2);
00585   CSCDetId me1bdet2(2, 1, 4, 4, 5);
00586 
00587   std::vector<int> sca(16, 600);
00588   std::vector<unsigned short> overflow(16, 0), overlap(16, 0), errorfl(16,0);
00589   CSCStripDigi me1a(5, sca, overflow, overlap, errorfl);
00590   CSCStripDigi me1b(8, sca, overflow, overlap, errorfl);
00591 
00592   CSCEventData forward(1);
00593   CSCEventData backward(1);
00594   
00595   forward.add(me1a, me1adet1.layer());
00596   forward.add(me1b, me1bdet1.layer());
00597   backward.add(me1a, me1adet2.layer());
00598   backward.add(me1b, me1adet2.layer());
00599   std::vector<CSCStripDigi> me1afs = forward.stripDigis(me1adet1);
00600   std::vector<CSCStripDigi> me1bfs = forward.stripDigis(me1bdet1);
00601   std::vector<CSCStripDigi> me1abs = backward.stripDigis(me1adet2);
00602   std::vector<CSCStripDigi> me1bbs = backward.stripDigis(me1bdet2);
00603   //FIXME The current code works under the assumption that ME11 and ME1A
00604   // go into separate EventData.  They need to be combined.
00605   assert(me1afs.size() == 16);
00606   assert(me1bfs.size() == 16);
00607   assert(me1abs.size() == 16);
00608   assert(me1bbs.size() == 16);
00609 
00610   assert(me1afs[4].getStrip() == 5);
00611   assert(me1bfs[7].getStrip() == 8);
00612   assert(me1abs[4].getStrip() == 5);
00613   assert(me1bbs[7].getStrip() == 8);
00614   assert(me1afs[4].pedestal() == 600);
00615   assert(me1bfs[7].pedestal() == 600);
00616   assert(me1abs[4].pedestal() == 600);
00617   assert(me1bbs[7].pedestal() == 600);
00618 
00619 
00620 }