110 produces<CSCWireDigiCollection>(
"MuonCSCWireDigi");
111 produces<CSCStripDigiCollection>(
"MuonCSCStripDigi");
112 produces<CSCComparatorDigiCollection>(
"MuonCSCComparatorDigi");
113 produces<CSCALCTDigiCollection>(
"MuonCSCALCTDigi");
114 produces<CSCCLCTDigiCollection>(
"MuonCSCCLCTDigi");
115 produces<CSCRPCDigiCollection>(
"MuonCSCRPCDigi");
116 produces<CSCCorrelatedLCTDigiCollection>(
"MuonCSCCorrelatedLCTDigi");
118 if (unpackStatusDigis)
120 produces<CSCCFEBStatusDigiCollection>(
"MuonCSCCFEBStatusDigi");
121 produces<CSCTMBStatusDigiCollection>(
"MuonCSCTMBStatusDigi");
122 produces<CSCDMBStatusDigiCollection>(
"MuonCSCDMBStatusDigi");
123 produces<CSCALCTStatusDigiCollection>(
"MuonCSCALCTStatusDigi");
124 produces<CSCDDUStatusDigiCollection>(
"MuonCSCDDUStatusDigi");
125 produces<CSCDCCStatusDigiCollection>(
"MuonCSCDCCStatusDigi");
130 produces<CSCDCCFormatStatusDigiCollection>(
"MuonCSCDCCFormatStatusDigi");
153 desc.
add<
bool>(
"UseExaminer",
true)->setComment(
"# Use CSC examiner to check for corrupt or semi-corrupt data & avoid unpacker crashes");
154 desc.
add<
unsigned int>(
"ExaminerMask",535557110)->setComment(
"# This mask is needed by the examiner");
155 desc.
add<
bool>(
"UseSelectiveUnpacking",
true)->setComment(
"# Use Examiner to unpack good chambers and skip only bad ones");
156 desc.
add<
unsigned int>(
"ErrorMask",0)->setComment(
"# This mask simply reduces error reporting");
157 desc.
add<
bool>(
"UnpackStatusDigis",
false)->setComment(
"# Unpack general status digis?");
158 desc.
add<
bool>(
"UseFormatStatus",
true)->setComment(
"# Unpack FormatStatus digi?");
159 desc.
addUntracked<
bool>(
"Debug",
false)->setComment(
"# Turn on lots of output");
162 desc.
addUntracked<
bool>(
"VisualFEDInspect",
false)->setComment(
"# Visualization of raw data in corrupted events");
163 desc.
addUntracked<
bool>(
"VisualFEDShort",
false)->setComment(
"# Visualization of raw data in corrupted events");
166 descriptions.
add(
"muonCSCDCCUnpacker",desc);
167 descriptions.
setComment(
" This is the generic cfi file for CSC unpacking");
209 unsigned long dccBinCheckMask = 0x06080016;
213 std::vector<unsigned int> cscFEDids;
218 cscFEDids.push_back(
id);
224 cscFEDids.push_back(
id);
227 for (
unsigned int i=0;
i<cscFEDids.size();
i++)
229 unsigned int id = cscFEDids[
i];
237 const FEDRawData& fedData = rawdata->FEDData(
id);
238 unsigned long length = fedData.
size();
260 const short unsigned int *
data = (
short unsigned int *)fedData.
data();
262 LogTrace(
"badData") <<
"Length: "<< length/2;
273 int res = examiner->
check(data,
long(fedData.
size()/2));
293 formatStatusProduct->insertDigi(
CSCDetId(1,1,1,1,1),
308 short unsigned * buf = (
short unsigned int *)fedData.
data();
324 std::vector<CSCDDUEventData> fed_Data;
325 std::vector<CSCDDUEventData>* ptr_fedData = &fed_Data;
334 fed_Data.push_back(single_dduData);
353 fed_Data = dccData.dduData();
360 short unsigned * bufForDcc = (
short unsigned int *)fedData.
data();
365 dccStatusProduct->insertDigi(layer,
CSCDCCStatusDigi(dccData.dccHeader().data(),
366 dccData.dccTrailer().data(),
368 bufForDcc[length/2-4]));
373 const std::vector<CSCDDUEventData> & dduData = *ptr_fedData;
376 for (
unsigned int iDDU=0; iDDU<dduData.size(); ++iDDU)
382 if (dduData[iDDU].trailer().errorstat()&
errorMask)
384 LogTrace(
"CSCDCCUnpacker|CSCRawToDigi") <<
"FED ID" <<
id <<
" DDU# " << iDDU <<
" has serious error - no digis unpacked! " <<
385 std::hex << dduData[iDDU].trailer().errorstat();
391 dduData[iDDU].trailer().
data(),
393 dduData[iDDU].trailer0()));
396 const std::vector<CSCEventData> & cscData = dduData[iDDU].cscData();
401 for (
unsigned int iCSC=0; iCSC<cscData.size(); ++iCSC)
405 int vmecrate = cscData[iCSC].dmbHeader()->crateID();
406 int dmb = cscData[iCSC].dmbHeader()->dmbID();
412 LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
"crate = " << vmecrate <<
"; dmb = " << dmb;
416 if ((vmecrate>=1)&&(vmecrate<=60) && (dmb>=1)&&(dmb<=10)&&(dmb!=6))
418 layer = pcrate->
detId(vmecrate, dmb,icfeb,ilayer );
422 LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
" detID input out of range!!! ";
423 LogTrace (
"CSCDCCUnpacker|CSCRawToDigi")
424 <<
" skipping chamber vme= " << vmecrate <<
" dmb= " << dmb;
432 int nalct = cscData[iCSC].dmbHeader()->nalct();
435 if (nalct&&cscData[iCSC].alctHeader())
437 if (cscData[iCSC].alctHeader()->
check())
443 LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
444 "not storing ALCT digis; alct is bad or not present";
449 if (
debug)
LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
"nALCT==0 !!!";
455 std::vector <CSCALCTDigi> alctDigis =
456 cscData[iCSC].alctHeader()->ALCTDigis();
459 std::vector<CSCALCTDigi> alctDigis_0;
460 for (
int unsigned i=0;
i<alctDigis.size(); ++
i)
462 if (alctDigis[
i].isValid())
463 alctDigis_0.push_back(alctDigis[
i]);
465 alctProduct->move(std::make_pair(alctDigis_0.begin(), alctDigis_0.end()),layer);
468 alctProduct->move(std::make_pair(alctDigis.begin(), alctDigis.end()),layer);
473 int nclct = cscData[iCSC].dmbHeader()->nclct();
476 if (nclct&&cscData[iCSC].tmbData())
478 if (cscData[iCSC].tmbHeader()->
check())
480 if (cscData[iCSC].clctData()->
check()) goodTMB=
true;
484 LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
485 "one of TMB checks failed! not storing TMB digis ";
490 if (
debug)
LogTrace (
"CSCDCCUnpacker|CSCRawToDigi") <<
"nCLCT==0 !!!";
496 std::vector <CSCCorrelatedLCTDigi> correlatedlctDigis =
497 cscData[iCSC].tmbHeader()->CorrelatedLCTDigis(layer.
rawId());
500 std::vector<CSCCorrelatedLCTDigi> correlatedlctDigis_0;
501 for (
int unsigned i=0;
i<correlatedlctDigis.size(); ++
i)
503 if (correlatedlctDigis[
i].isValid())
504 correlatedlctDigis_0.push_back(correlatedlctDigis[
i]);
506 corrlctProduct->move(std::make_pair(correlatedlctDigis_0.begin(),
507 correlatedlctDigis_0.end()),layer);
510 corrlctProduct->move(std::make_pair(correlatedlctDigis.begin(),
511 correlatedlctDigis.end()),layer);
513 std::vector <CSCCLCTDigi> clctDigis =
514 cscData[iCSC].tmbHeader()->CLCTDigis(layer.
rawId());
517 std::vector<CSCCLCTDigi> clctDigis_0;
518 for (
int unsigned i=0;
i<clctDigis.size(); ++
i)
520 if (clctDigis[
i].isValid())
521 clctDigis_0.push_back(clctDigis[
i]);
523 clctProduct->move(std::make_pair(clctDigis_0.begin(), clctDigis_0.end()),layer);
526 clctProduct->move(std::make_pair(clctDigis.begin(), clctDigis.end()),layer);
529 if (cscData[iCSC].tmbData()->checkSize())
531 if (cscData[iCSC].tmbData()->hasRPC())
533 std::vector <CSCRPCDigi> rpcDigis =
534 cscData[iCSC].tmbData()->rpcData()->digis();
535 rpcProduct->move(std::make_pair(rpcDigis.begin(), rpcDigis.end()),layer);
538 else LogTrace(
"CSCDCCUnpacker|CSCRawToDigi") <<
" TMBData check size failed!";
545 for ( icfeb = 0; icfeb < 7; ++icfeb )
547 if ( cscData[iCSC].cfebData(icfeb) !=
NULL )
549 insertDigi(layer, cscData[iCSC].cfebData(icfeb)->statusDigi());
553 cscData[iCSC].dmbTrailer()->
data()));
554 if (goodTMB) tmbStatusProduct->
556 cscData[iCSC].tmbData()->tmbTrailer()->
data()));
557 if (goodALCT) alctStatusProduct->
559 cscData[iCSC].alctTrailer()->
data()));
564 for (
int ilayer = 1; ilayer <= 6; ++ilayer)
570 layer = pcrate->
detId( vmecrate, dmb, 0, ilayer );
572 std::vector <CSCWireDigi> wireDigis = cscData[iCSC].wireDigis(ilayer);
573 wireProduct->move(std::make_pair(wireDigis.begin(), wireDigis.end()),layer);
576 for ( icfeb = 0; icfeb < 7; ++icfeb )
578 layer = pcrate->
detId( vmecrate, dmb, icfeb,ilayer );
579 if (cscData[iCSC].cfebData(icfeb) && cscData[iCSC].cfebData(icfeb)->
check())
581 std::vector<CSCStripDigi> stripDigis;
582 cscData[iCSC].cfebData(icfeb)->digis(layer.
rawId(),stripDigis);
583 stripProduct->move(std::make_pair(stripDigis.begin(),
584 stripDigis.end()),layer);
589 if (goodTMB && (cscData[iCSC].tmbHeader() !=
NULL))
591 int nCFEBs = cscData[iCSC].tmbHeader()->NCFEBs();
592 for ( icfeb = 0; icfeb < nCFEBs; ++icfeb )
594 layer = pcrate->
detId( vmecrate, dmb, icfeb,ilayer );
595 std::vector <CSCComparatorDigi> comparatorDigis =
596 cscData[iCSC].clctData()->comparatorDigis(layer.
rawId(), icfeb);
599 layer = pcrate->
detId( vmecrate, dmb, 0, ilayer );
600 comparatorProduct->move(std::make_pair(comparatorDigis.begin(),
601 comparatorDigis.end()),layer);
610 LogTrace(
"CSCDCCUnpacker|CSCRawToDigi") <<
611 "ERROR! Examiner rejected FED #" << id;
621 LogTrace(
"CSCDCCUnpacker|CSCRawToDigi")
622 <<
" Examiner errors:0x" << std::hex << examiner->
errors()
631 if (examiner!=
NULL)
delete examiner;
635 e.
put(wireProduct,
"MuonCSCWireDigi");
636 e.
put(stripProduct,
"MuonCSCStripDigi");
637 e.
put(alctProduct,
"MuonCSCALCTDigi");
638 e.
put(clctProduct,
"MuonCSCCLCTDigi");
639 e.
put(comparatorProduct,
"MuonCSCComparatorDigi");
640 e.
put(rpcProduct,
"MuonCSCRPCDigi");
641 e.
put(corrlctProduct,
"MuonCSCCorrelatedLCTDigi");
647 e.
put(cfebStatusProduct,
"MuonCSCCFEBStatusDigi");
648 e.
put(dmbStatusProduct,
"MuonCSCDMBStatusDigi");
649 e.
put(tmbStatusProduct,
"MuonCSCTMBStatusDigi");
650 e.
put(dduStatusProduct,
"MuonCSCDDUStatusDigi");
651 e.
put(dccStatusProduct,
"MuonCSCDCCStatusDigi");
652 e.
put(alctStatusProduct,
"MuonCSCALCTStatusDigi");
655 <<
"[CSCDCCUnpacker]: " <<
numOfEvents <<
" events processed ";
662 bool fDump,
short unsigned int *buf)
const
665 std::cout << std::endl << std::endl << std::endl;
666 std::cout <<
"Run: "<< run <<
" Event: " <<
event << std::endl;
669 std::cout <<
"FED-" <<
id <<
" " <<
"(scroll down to see summary)" << std::endl;
671 std::cout <<
"Problem seems in FED-" <<
id <<
" " <<
"(scroll down to see summary)" << std::endl;
672 std::cout <<
"********************************************************************************" << std::endl;
673 std::cout << hl <<
" words of data:" << std::endl;
677 std::vector<int> dcc_id;
680 for (
int i=750;
i<758;
i++)
683 for (
int i=830;
i<838;
i++)
686 char dcc_common[]=
"DCC-";
690 std::vector<int> ddu_id;
692 for (
int i=1;
i<37;
i++)
695 char ddu_common[]=
"DDU-";
696 char ddu_header1[]=
"Header 1";
697 char ddu_header2[]=
"Header 2";
698 char ddu_header3[]=
"Header 3";
699 char ddu_trail1[]=
"Trailer 1", ddu_trail2[]=
"Trailer 2", ddu_trail3[]=
"Trailer 3";
701 char ddu_trailer1_bit[]= {
'8',
'0',
'0',
'0',
'f',
'f',
'f',
'f',
'8',
'0',
'0',
'0',
'8',
'0',
'0',
'0'};
702 char ddu_trailer3_bit[]= {
'a'};
704 char ddu_tr1_err_common[]=
"Incomplet";
708 char dmb_common[]=
"DMB", dmb_header1[]=
"Header 1", dmb_header2[]=
"Header 2";
709 char dmb_common_crate[]=
"crate:", dmb_common_slot[]=
"slot:";
710 char dmb_common_l1a[]=
"L1A:";
711 char dmb_header1_bit[]= {
'9',
'9',
'9',
'9'};
712 char dmb_header2_bit[]= {
'a',
'a',
'a',
'a'};
713 char dmb_tr1[]=
"Trailer 1", dmb_tr2[]=
"Trailer 2";
714 char dmb_tr1_bit[]= {
'f',
'f',
'f',
'f'}, dmb_tr2_bit[]= {
'e',
'e',
'e',
'e'};
720 char alct_common[]=
"ALCT", alct_header1[]=
"Header 1", alct_header2[]=
"Header 2";
721 char alct_common_bxn[]=
"BXN:";
722 char alct_common_wcnt2[]=
"| Actual word count:";
723 char alct_common_wcnt1[]=
"Expected word count:";
724 char alct_header1_bit[]= {
'd',
'd',
'd',
'd',
'b',
'0',
'a'};
725 char alct_header2_bit[]= {
'0',
'0',
'0',
'0'};
726 char alct_tr1[]=
"Trailer 1";
731 char tmb_common[]=
"TMB", tmb_header1[]=
"Header", tmb_tr1[]=
"Trailer";
732 char tmb_header1_bit[]= {
'd',
'd',
'd',
'd',
'b',
'0',
'c'};
733 char tmb_tr1_bit[]= {
'd',
'd',
'd',
'd',
'e',
'0',
'f'};
738 char cfeb_common[]=
"CFEB", cfeb_tr1[]=
"Trailer", cfeb_b[]=
"B-word";
739 char cfeb_common_sample[]=
"sample:";
749 char tempbuf_short[17];
750 char sign1[]=
" --->| ";
753 int word_numbering=0;
754 int ddu_inst_i=0, ddu_inst_n=0, ddu_inst_l1a=0;
756 int dmb_inst_crate=0, dmb_inst_slot=0, dmb_inst_l1a=0;
760 int alct_inst_wcnt1=0;
761 int alct_inst_wcnt2=0;
765 int tmb_inst_wcnt1=0;
766 int tmb_inst_wcnt2=0;
777 bool dcc_check=
false;
778 bool ddu_h2_check[sz1]= {
false};
779 bool ddu_h1_check=
false;
780 bool dmb_h1_check[sz1]= {
false};
781 bool dmb_h2_check[sz1]= {
false};
782 bool ddu_h2_h1=
false;
783 bool ddu_tr1_check[sz1]= {
false};
784 bool alct_h1_check[sz1]= {
false};
785 bool alct_h2_check[sz1]= {
false};
786 bool alct_tr1_check[sz1]= {
false};
787 bool dmb_tr1_check[sz1]= {
false};
788 bool dmb_tr2_check[sz1]= {
false};
789 bool tmb_h1_check[sz1]= {
false};
790 bool tmb_tr1_check[sz1]= {
false};
791 bool cfeb_tr1_check[sz1]= {
false};
792 bool cfeb_b_check[sz1]= {
false};
793 bool ddu_tr1_bad_check[sz1]= {
false};
794 bool extraction=fedshort;
798 std::vector<int> ddu_h1_coll;
799 std::vector<int> ddu_h1_n_coll;
800 std::vector<int> ddu_h2_coll;
801 std::vector<int> ddu_h3_coll;
802 std::vector<int> ddu_t1_coll;
803 std::vector<int> ddu_t2_coll;
804 std::vector<int> ddu_t3_coll;
805 std::vector<int> ddu_l1a_coll;
806 std::vector<int> ddu_bxn_coll;
808 std::vector<int> dmb_h1_coll;
809 std::vector<int> dmb_h2_coll;
810 std::vector<int> dmb_t1_coll;
811 std::vector<int> dmb_t2_coll;
812 std::vector<int> dmb_crate_coll;
813 std::vector<int> dmb_slot_coll;
814 std::vector<int> dmb_l1a_coll;
816 std::vector<int> alct_h1_coll;
817 std::vector<int> alct_h2_coll;
818 std::vector<int> alct_t1_coll;
819 std::vector<int> alct_l1a_coll;
820 std::vector<int> alct_bxn_coll;
821 std::vector<int> alct_wcnt1_coll;
822 std::vector<int> alct_wcnt2_coll;
823 std::vector<int> alct_wcnt2_id_coll;
825 std::vector<int> tmb_h1_coll;
826 std::vector<int> tmb_t1_coll;
827 std::vector<int> tmb_l1a_coll;
828 std::vector<int> tmb_wcnt1_coll;
829 std::vector<int> tmb_wcnt2_coll;
831 std::vector<int> cfeb_t1_coll;
836 char dcc_header1[]=
"DCC Header 1";
837 char dcc_header2[]=
"DCC Header 2";
838 char dcc_trail1[]=
"DCC Trailer 1", dcc_trail1_bit[]= {
'e'};
839 char dcc_trail2[]=
"DCC Trailer 2", dcc_trail2_bit[]= {
'a'};
842 for (
int i=0;
i < hl;
i++)
845 for (
int j=-1;
j<4;
j++)
848 sprintf(tempbuf_short,
"%04x%04x%04x%04x",buf[
i+4*(
j-1)+3],buf[
i+4*(
j-1)+2],buf[
i+4*(
j-1)+1],buf[
i+4*(
j-1)]);
854 ddu_h2_check[
j]=((buf[
i+4*(
j-1)+1]==0x8000)&&
855 (buf[
i+4*(
j-1)+2]==0x0001)&&(buf[
i+4*(
j-1)+3]==0x8000));
857 ddu_tr1_check[
j]=((tempbuf_short[0]==ddu_trailer1_bit[0])&&(tempbuf_short[1]==ddu_trailer1_bit[1])&&
858 (tempbuf_short[2]==ddu_trailer1_bit[2])&&(tempbuf_short[3]==ddu_trailer1_bit[3])&&
859 (tempbuf_short[4]==ddu_trailer1_bit[4])&&(tempbuf_short[5]==ddu_trailer1_bit[5])&&
860 (tempbuf_short[6]==ddu_trailer1_bit[6])&&(tempbuf_short[7]==ddu_trailer1_bit[7])&&
861 (tempbuf_short[8]==ddu_trailer1_bit[8])&&(tempbuf_short[9]==ddu_trailer1_bit[9])&&
862 (tempbuf_short[10]==ddu_trailer1_bit[10])&&(tempbuf_short[11]==ddu_trailer1_bit[11])&&
863 (tempbuf_short[12]==ddu_trailer1_bit[12])&&(tempbuf_short[13]==ddu_trailer1_bit[13])&&
864 (tempbuf_short[14]==ddu_trailer1_bit[14])&&(tempbuf_short[15]==ddu_trailer1_bit[15]));
866 dmb_h1_check[
j]=((tempbuf_short[0]==dmb_header1_bit[0])&&(tempbuf_short[4]==dmb_header1_bit[1])&&
867 (tempbuf_short[8]==dmb_header1_bit[2])&&(tempbuf_short[12]==dmb_header1_bit[3]));
869 dmb_h2_check[
j]=((tempbuf_short[0]==dmb_header2_bit[0])&&(tempbuf_short[4]==dmb_header2_bit[1])&&
870 (tempbuf_short[8]==dmb_header2_bit[2])&&(tempbuf_short[12]==dmb_header2_bit[3]));
871 alct_h1_check[
j]=((tempbuf_short[0]==alct_header1_bit[0])&&(tempbuf_short[4]==alct_header1_bit[1])&&
872 (tempbuf_short[8]==alct_header1_bit[2])&&(tempbuf_short[12]==alct_header1_bit[3])&&
873 (tempbuf_short[13]==alct_header1_bit[4])&&(tempbuf_short[14]==alct_header1_bit[5])&&
874 (tempbuf_short[15]==alct_header1_bit[6]));
875 alct_h2_check[
j]=(((tempbuf_short[0]==alct_header2_bit[0])&&(tempbuf_short[1]==alct_header2_bit[1])&&
876 (tempbuf_short[2]==alct_header2_bit[2])&&(tempbuf_short[3]==alct_header2_bit[3]))||
877 ((tempbuf_short[4]==alct_header2_bit[0])&&(tempbuf_short[5]==alct_header2_bit[1])&&
878 (tempbuf_short[6]==alct_header2_bit[2])&&(tempbuf_short[7]==alct_header2_bit[3]))||
879 ((tempbuf_short[8]==alct_header2_bit[0])&&(tempbuf_short[9]==alct_header2_bit[1])&&
880 (tempbuf_short[10]==alct_header2_bit[2])&&(tempbuf_short[11]==alct_header2_bit[3]))||
881 ((tempbuf_short[12]==alct_header2_bit[0])&&(tempbuf_short[13]==alct_header2_bit[1])&&
882 (tempbuf_short[14]==alct_header2_bit[2])&&(tempbuf_short[15]==alct_header2_bit[3]))
886 alct_tr1_check[
j]=(((buf[
i+4*(
j-1)]&0xFFFF)==0xDE0D)&&((buf[
i+4*(
j-1)+1]&0xF800)==0xD000)&&
887 ((buf[
i+4*(
j-1)+2]&0xF800)==0xD000)&&((buf[
i+4*(
j-1)+3]&0xF000)==0xD000));
889 dmb_tr1_check[
j]=((tempbuf_short[0]==dmb_tr1_bit[0])&&(tempbuf_short[4]==dmb_tr1_bit[1])&&
890 (tempbuf_short[8]==dmb_tr1_bit[2])&&(tempbuf_short[12]==dmb_tr1_bit[3]));
891 dmb_tr2_check[
j]=((tempbuf_short[0]==dmb_tr2_bit[0])&&(tempbuf_short[4]==dmb_tr2_bit[1])&&
892 (tempbuf_short[8]==dmb_tr2_bit[2])&&(tempbuf_short[12]==dmb_tr2_bit[3]));
894 tmb_h1_check[
j]=((tempbuf_short[0]==tmb_header1_bit[0])&&(tempbuf_short[4]==tmb_header1_bit[1])&&
895 (tempbuf_short[8]==tmb_header1_bit[2])&&(tempbuf_short[12]==tmb_header1_bit[3])&&
896 (tempbuf_short[13]==tmb_header1_bit[4])&&(tempbuf_short[14]==tmb_header1_bit[5])&&
897 (tempbuf_short[15]==tmb_header1_bit[6]));
898 tmb_tr1_check[
j]=((tempbuf_short[0]==tmb_tr1_bit[0])&&(tempbuf_short[4]==tmb_tr1_bit[1])&&
899 (tempbuf_short[8]==tmb_tr1_bit[2])&&(tempbuf_short[12]==tmb_tr1_bit[3])&&
900 (tempbuf_short[13]==tmb_tr1_bit[4])&&(tempbuf_short[14]==tmb_tr1_bit[5])&&
901 (tempbuf_short[15]==tmb_tr1_bit[6]));
903 cfeb_tr1_check[
j]=(((buf[
i+4*(
j-1)+1]&0xF000)==0x7000) &&
904 ((buf[
i+4*(
j-1)+2]&0xF000)==0x7000) &&
905 (( buf[
i+4*(
j-1)+1]!= 0x7FFF) || (buf[
i+4*(
j-1)+2] != 0x7FFF)) &&
906 ((buf[
i+4*(
j-1)+3] == 0x7FFF) ||
907 ((buf[
i+4*(
j-1)+3]&buf[
i+4*(
j-1)]) == 0x0&&(buf[
i+4*(
j-1)+3] + buf[
i+4*(
j-1)] == 0x7FFF ))) );
908 cfeb_b_check[
j]=(((buf[
i+4*(
j-1)+3]&0xF000)==0xB000)&&((buf[
i+4*(
j-1)+2]&0xF000)==0xB000) &&
909 ((buf[
i+4*(
j-1)+1]&0xF000)==0xB000)&&((buf[
i+4*(
j-1)]=3&0xF000)==0xB000) );
911 ddu_tr1_bad_check[
j]=((tempbuf_short[0]!=ddu_trailer1_bit[0])&&
914 (tempbuf_short[4]!=ddu_trailer1_bit[4])&&
917 (tempbuf_short[8]==ddu_trailer1_bit[8])&&(tempbuf_short[9]==ddu_trailer1_bit[9])&&
918 (tempbuf_short[10]==ddu_trailer1_bit[10])&&(tempbuf_short[11]==ddu_trailer1_bit[11])&&
919 (tempbuf_short[12]==ddu_trailer1_bit[12])&&(tempbuf_short[13]==ddu_trailer1_bit[13])&&
920 (tempbuf_short[14]==ddu_trailer1_bit[14])&&(tempbuf_short[15]==ddu_trailer1_bit[15]));
924 ddu_h2_h1=ddu_h2_check[2];
926 sprintf(tempbuf_short,
"%04x%04x%04x%04x",buf[
i+3],buf[
i+2],buf[
i+1],buf[
i]);
929 ddu_h1_12_13=(buf[
i]>>8);
930 for (
int kk=0;
kk<36;
kk++)
932 if (((buf[i+3]&0xF000)==0x5000)&&(ddu_h1_12_13==ddu_id[
kk])&&ddu_h2_h1)
934 ddu_h1_coll.push_back(word_numbering);
935 ddu_h1_n_coll.push_back(ddu_id[
kk]);
936 ddu_inst_l1a=((buf[i+2]&0xFFFF)+((buf[i+3]&0x00FF)<<16));
937 ddu_l1a_coll.push_back(ddu_inst_l1a);
938 ddu_inst_bxn=(buf[i+1]&0xFFF0)>>4;
939 ddu_bxn_coll.push_back(ddu_inst_bxn);
940 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s%s %s %i %s %i",
941 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
942 sign1,ddu_common,ddu_id[kk],ddu_header1,sign1,dmb_common_l1a,ddu_inst_l1a,alct_common_bxn,ddu_inst_bxn);
954 dcc_h1_id=(((buf[i+1]<<12)&0xF000)>>4)+(buf[i]>>8);
955 for (
int dcci=0; dcci<16; dcci++)
957 if ((dcc_id[dcci]==dcc_h1_id)&&(((buf[i+3]&0xF000)==0x5000)&&(!ddu_h1_check)))
959 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
960 sign1,dcc_common,dcc_h1_id,dcc_header1);
961 dcc_h1_check=word_numbering;
969 if (((word_numbering-1)==dcc_h1_check)&&((buf[i+3]&0xFF00)==0xD900))
971 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
976 else if ((word_numbering==word_lines-1)&&(tempbuf_short[0]==dcc_trail1_bit[0]))
978 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
983 else if ((word_numbering==word_lines)&&(tempbuf_short[0]==dcc_trail2_bit[0]))
985 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
992 else if (ddu_h2_check[1])
994 ddu_inst_i = ddu_h1_n_coll.size();
997 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
999 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",
1000 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,ddu_common,
1001 ddu_inst_n, ddu_header2);
1002 ddu_h2_coll.push_back(word_numbering);
1009 else if ((ddu_h2_check[0]&&dmb_h1_check[2])||(ddu_h2_check[0]&&ddu_tr1_check[2]))
1011 ddu_inst_i = ddu_h1_n_coll.size();
1014 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1016 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1017 sign1,ddu_common,ddu_inst_n,ddu_header3);
1018 ddu_h3_coll.push_back(word_numbering);
1026 else if (dmb_h1_check[1])
1031 dmb_inst_l1a=((buf[
i]&0x0FFF)+((buf[i+1]&0xFFF)<<12));
1032 dmb_l1a_coll.push_back(dmb_inst_l1a);
1033 if (dmb_h2_check[2])
1035 dmb_inst_crate=((buf[i+4+1]>>4)&0xFF);
1036 dmb_inst_slot=(buf[i+4+1]&0xF);
1037 dmb_crate_coll.push_back(dmb_inst_crate);
1038 dmb_slot_coll.push_back(dmb_inst_slot);
1040 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i %s %i",
1041 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1042 sign1,dmb_common,dmb_header1,sign1,dmb_common_crate,dmb_inst_crate,
1043 dmb_common_slot,dmb_inst_slot,dmb_common_l1a,dmb_inst_l1a);
1044 dmb_h1_coll.push_back(word_numbering);
1050 else if (dmb_h2_check[1])
1052 dmb_inst_crate=((buf[i+1]>>4)&0xFF);
1053 dmb_inst_slot=(buf[i+1]&0xF);
1054 dmb_h2_coll.push_back(word_numbering);
1055 if (dmb_h1_check[0])
1056 dmb_inst_l1a=((buf[i-4]&0x0FFF)+((buf[i-4+1]&0xFFF)<<12));
1057 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i %s %i",
1058 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1059 sign1,dmb_common,dmb_header2,sign1,dmb_common_crate,dmb_inst_crate,
1060 dmb_common_slot,dmb_inst_slot,dmb_common_l1a,dmb_inst_l1a);
1068 else if (ddu_tr1_check[1])
1070 ddu_inst_i = ddu_h1_n_coll.size();
1073 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1076 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",
1077 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,ddu_common,ddu_inst_n,ddu_trail1);
1078 ddu_t1_coll.push_back(word_numbering);
1084 else if (alct_h1_check[1])
1086 alct_start=word_numbering;
1087 alct_inst_l1a=(buf[i+2]&0x0FFF);
1088 alct_l1a_coll.push_back(alct_inst_l1a);
1089 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s %s %i",
1090 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1091 sign1,alct_common,alct_header1,sign1,dmb_common_l1a,alct_inst_l1a);
1092 alct_h1_coll.push_back(word_numbering);
1098 else if ((alct_h1_check[0])&&(alct_h2_check[2]))
1100 alct_inst_bxn=(buf[
i]&0x0FFF);
1101 alct_bxn_coll.push_back(alct_inst_bxn);
1102 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i",
1103 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1104 sign1,alct_common,alct_header2,sign1,alct_common_bxn,alct_inst_bxn);
1105 alct_h2_coll.push_back(word_numbering);
1112 else if (alct_tr1_check[1])
1114 alct_stop=word_numbering;
1115 if ((alct_start!=0)&&(alct_stop!=0)&&(alct_stop>alct_start))
1117 alct_inst_wcnt2=4*(alct_stop-alct_start+1);
1118 alct_wcnt2_coll.push_back(alct_inst_wcnt2);
1119 alct_wcnt2_id_coll.push_back(alct_start);
1121 alct_inst_wcnt1=(buf[i+3]&0x7FF);
1122 alct_wcnt1_coll.push_back(alct_inst_wcnt1);
1123 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i",
1124 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1125 sign1,alct_common,alct_tr1,sign1,alct_common_wcnt1,alct_inst_wcnt1,
1126 alct_common_wcnt2,alct_inst_wcnt2);
1127 alct_t1_coll.push_back(word_numbering);
1137 else if((ddu_h2_h1)&&(tempbuf_short[0]==ddu_trailer3_bit[0])){
1139 ddu_inst_i = ddu_h1_n_coll.size();
1142 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1145 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",
1146 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,ddu_common,ddu_inst_n,ddu_trail3);
1147 ddu_t3_coll.push_back(word_numbering);
1152 else if ((ddu_tr1_check[0])&&(tempbuf_short[0]!=ddu_trailer3_bit[0]))
1155 ddu_inst_i = ddu_h1_n_coll.size();
1158 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1161 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s",
1162 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,ddu_common,ddu_inst_n,ddu_trail2);
1163 ddu_t2_coll.push_back(word_numbering);
1169 else if (dmb_tr1_check[1])
1171 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s",
1172 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,dmb_common,dmb_tr1);
1173 dmb_t1_coll.push_back(word_numbering);
1179 else if (dmb_tr2_check[1])
1181 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s",
1182 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,dmb_common,dmb_tr2);
1183 dmb_t2_coll.push_back(word_numbering);
1188 else if (tmb_h1_check[1])
1190 tmb_start=word_numbering;
1191 tmb_inst_l1a=(buf[i+2]&0x000F);
1192 tmb_l1a_coll.push_back(tmb_inst_l1a);
1193 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i",
1194 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,tmb_common,tmb_header1,
1195 sign1,dmb_common_l1a,tmb_inst_l1a);
1196 tmb_h1_coll.push_back(word_numbering);
1201 else if (tmb_tr1_check[1])
1203 tmb_stop=word_numbering;
1204 if ((tmb_start!=0)&&(tmb_stop!=0)&&(tmb_stop>tmb_start))
1206 tmb_inst_wcnt2=4*(tmb_stop-tmb_start+1);
1207 tmb_wcnt2_coll.push_back(tmb_inst_wcnt2);
1209 tmb_inst_wcnt1=(buf[i+3]&0x7FF);
1210 tmb_wcnt1_coll.push_back(tmb_inst_wcnt1);
1211 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s%s %i %s %i",
1212 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1213 sign1,tmb_common,tmb_tr1,sign1,alct_common_wcnt1,tmb_inst_wcnt1,
1214 alct_common_wcnt2,tmb_inst_wcnt2);
1215 tmb_t1_coll.push_back(word_numbering);
1221 else if (cfeb_tr1_check[1])
1224 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s%s %s %i",
1225 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],
1226 sign1,cfeb_common,cfeb_tr1,sign1,cfeb_common_sample,cfeb_sample);
1227 cfeb_t1_coll.push_back(word_numbering);
1232 else if (cfeb_b_check[1])
1234 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s %s",
1235 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,cfeb_common,cfeb_b);
1242 else if (ddu_tr1_bad_check[1])
1244 ddu_inst_i = ddu_h1_n_coll.size();
1245 ddu_inst_n=ddu_h1_n_coll[ddu_inst_i-1];
1246 sprintf(tempbuf1,
"%6i %04x %04x %04x %04x%s%s%i %s %s",
1247 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i],sign1,ddu_common,ddu_inst_n,
1248 ddu_trail1,ddu_tr1_err_common);
1253 else if (extraction&&(!ddu_h1_check)&&(!dcc_check))
1257 sprintf(tempbuf,
"%6i %04x %04x %04x %04x",
1258 word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i]);
1264 std::cout <<
"..................................................." << std::endl;
1269 else if ((!ddu_h1_check)&&(!dcc_check))
1271 sprintf(tempbuf,
"%6i %04x %04x %04x %04x",word_numbering,buf[i+3],buf[i+2],buf[i+1],buf[i]);
1280 std::cout <<
"********************************************************************************" <<
1281 std::endl << std::endl;
1283 std::cout <<
"For complete output turn off VisualFEDShort in muonCSCDigis configuration file." << std::endl;
1284 std::cout <<
"********************************************************************************" <<
1285 std::endl << std::endl;
1289 std::cout << ddu_h1_coll.size() <<
" "<< ddu_common <<
" "<<ddu_header1 <<
" "<<
"found" << std::endl;
1294 for (
unsigned int k=0;
k<ddu_h1_coll.size(); ++
k)
1301 std::cout <<
"Line: " <<
" " << ddu_h1_coll[
k] <<
" " << sign1 <<
" " <<
1302 ddu_common <<
" " << ddu_h1_n_coll[
k] <<
" " << dmb_common_l1a <<
" " << ddu_l1a_coll[
k] <<
" " <<
1303 alct_common_bxn <<
" " << ddu_bxn_coll[
k] << std::endl;
1308 std::cout <<
"||||||||||||||||||||" << std::endl;
1310 std::cout << ddu_h2_coll.size() <<
" "<< ddu_common <<
" "<<ddu_header2 <<
" "<<
"found" << std::endl;
1311 for (
unsigned int k=0;
k<ddu_h2_coll.size(); ++
k)
1312 std::cout <<
"Line: " << ddu_h2_coll[
k] << std::endl;
1314 std::cout <<
"||||||||||||||||||||" << std::endl;
1316 std::cout << ddu_h3_coll.size() <<
" "<< ddu_common <<
" "<<ddu_header3 <<
" "<<
"found" << std::endl;
1317 for (
unsigned int k=0;
k<ddu_h3_coll.size(); ++
k)
1318 std::cout <<
"Line: " << ddu_h3_coll[
k] << std::endl;
1320 std::cout <<
"||||||||||||||||||||" << std::endl;
1322 std::cout << ddu_t1_coll.size() <<
" "<< ddu_common <<
" "<<ddu_trail1 <<
" "<<
"found" << std::endl;
1323 for (
unsigned int k=0;
k<ddu_t1_coll.size(); ++
k)
1324 std::cout <<
"Line: " << ddu_t1_coll[
k] << std::endl;
1326 std::cout <<
"||||||||||||||||||||" << std::endl;
1328 std::cout << ddu_t2_coll.size() <<
" "<< ddu_common <<
" "<<ddu_trail2 <<
" "<<
"found" << std::endl;
1329 for (
unsigned int k=0;
k<ddu_t2_coll.size(); ++
k)
1330 std::cout <<
"Line: " << ddu_t2_coll[
k] << std::endl;
1332 std::cout <<
"||||||||||||||||||||" << std::endl;
1334 std::cout << ddu_t3_coll.size() <<
" "<< ddu_common <<
" "<<ddu_trail3 <<
" "<<
"found" << std::endl;
1335 for (
unsigned int k=0;
k<ddu_t3_coll.size(); ++
k)
1336 std::cout <<
"Line: " << ddu_t3_coll[
k] << std::endl;
1338 std::cout <<
"||||||||||||||||||||" << std::endl;
1340 std::cout << dmb_h1_coll.size() <<
" "<< dmb_common <<
" "<<dmb_header1 <<
" "<<
"found" << std::endl;
1342 for (
unsigned int k=0;
k<dmb_h1_coll.size(); ++
k)
1349 std::cout <<
"Line: " <<
" " << dmb_h1_coll[
k] <<
" " << sign1 << dmb_common
1350 <<
" " << dmb_common_crate <<
" " << dmb_crate_coll[
k] <<
" " << dmb_common_slot <<
" " <<
1351 dmb_slot_coll[
k] <<
" " << dmb_common_l1a <<
" " << dmb_l1a_coll[
k] << std::endl;
1354 std::cout <<
"||||||||||||||||||||" << std::endl;
1356 std::cout << dmb_h2_coll.size() <<
" "<< dmb_common <<
" "<<dmb_header2 <<
" "<<
"found" << std::endl;
1357 for (
unsigned int k=0;
k<dmb_h2_coll.size(); ++
k)
1358 std::cout <<
"Line: " << dmb_h2_coll[
k] << std::endl;
1360 std::cout <<
"||||||||||||||||||||" << std::endl;
1362 std::cout << dmb_t1_coll.size() <<
" "<< dmb_common <<
" "<<dmb_tr1 <<
" "<<
"found" << std::endl;
1363 for (
unsigned int k=0;
k<dmb_t1_coll.size(); ++
k)
1364 std::cout <<
"Line: " << dmb_t1_coll[
k] << std::endl;
1366 std::cout <<
"||||||||||||||||||||" << std::endl;
1368 std::cout << dmb_t2_coll.size() <<
" "<< dmb_common <<
" "<<dmb_tr2 <<
" "<<
"found" << std::endl;
1369 for (
unsigned int k=0;
k<dmb_t2_coll.size(); ++
k)
1370 std::cout <<
"Line: " << dmb_t2_coll[
k] << std::endl;
1372 std::cout <<
"||||||||||||||||||||" << std::endl;
1374 std::cout << alct_h1_coll.size() <<
" "<< alct_common <<
" "<<alct_header1 <<
" "<<
"found" << std::endl;
1375 for (
unsigned int k=0;
k<alct_h1_coll.size(); ++
k)
1384 alct_h1_coll[
k] <<
" " << sign1 <<
" " << alct_common <<
" " <<
1385 dmb_common_l1a <<
" " << alct_l1a_coll[
k] << std::endl;
1389 std::cout <<
"||||||||||||||||||||" << std::endl;
1391 std::cout << alct_h2_coll.size() <<
" "<< alct_common <<
" "<<alct_header2 <<
" "<<
"found" << std::endl;
1392 for (
unsigned int k=0;
k<alct_h2_coll.size(); ++
k)
1401 alct_h1_coll[
k] <<
" " << sign1 <<
" " << alct_common <<
" " <<
1402 alct_common_bxn <<
" " << alct_bxn_coll[
k] << std::endl;
1406 std::cout <<
"||||||||||||||||||||" << std::endl;
1408 std::cout << alct_t1_coll.size() <<
" "<< alct_common <<
" "<<alct_tr1 <<
" "<<
"found" << std::endl;
1409 for (
unsigned int k=0;
k<alct_t1_coll.size(); ++
k)
1417 std::cout <<
"Line: " <<
" " << alct_t1_coll[
k] <<
" " << sign1 <<
" " << alct_common <<
" " <<
1418 alct_common_wcnt1 <<
" " << alct_wcnt1_coll[
k] <<
" " << alct_common_wcnt2 <<
" ";
1419 if (alct_wcnt2_coll.size()>0)
1421 std::cout << alct_wcnt2_coll[
k] << std::endl;
1425 std::cout <<
"Undefined (ALCT Header is not found) " << std::endl;
1430 std::cout <<
"||||||||||||||||||||" << std::endl;
1432 std::cout << tmb_h1_coll.size() <<
" "<< tmb_common <<
" "<<tmb_header1 <<
" "<<
"found" << std::endl;
1433 for (
unsigned int k=0;
k<tmb_h1_coll.size(); ++
k)
1441 std::cout <<
"Line: " <<
" " << tmb_h1_coll[
k] <<
" " << sign1 <<
" " << tmb_common <<
" " <<
1442 dmb_common_l1a <<
" " << tmb_l1a_coll[
k] << std::endl;
1446 std::cout <<
"||||||||||||||||||||" << std::endl;
1448 std::cout << tmb_t1_coll.size() <<
" "<< tmb_common <<
" "<<tmb_tr1 <<
" "<<
"found" << std::endl;
1449 for (
unsigned int k=0;
k<tmb_t1_coll.size(); ++
k)
1457 std::cout <<
"Line: " <<
" " << tmb_t1_coll[
k] <<
" " << sign1 <<
" " << tmb_common <<
" " <<
1458 alct_common_wcnt1 <<
" " << tmb_wcnt1_coll[
k] <<
" " << alct_common_wcnt2 <<
" " << tmb_wcnt2_coll[
k]
1464 std::cout <<
"||||||||||||||||||||" << std::endl;
1466 std::cout << cfeb_t1_coll.size() <<
" "<< cfeb_common <<
" "<<cfeb_tr1 <<
" "<<
"found" << std::endl;
1467 for (
unsigned int k=0;
k<cfeb_t1_coll.size(); ++
k)
1468 std::cout <<
"Line: " << cfeb_t1_coll[
k] << std::endl;
1469 std::cout <<
"********************************************************************************" << std::endl;
T getParameter(std::string const &) const
EventNumber_t event() const
void crcCFEB(bool enable)
T getUntrackedParameter(std::string const &, T const &) const
bool SuppressZeroLCT
Suppress zeros LCTs.
ParameterDescriptionBase * addUntracked(U const &iLabel, T const &value)
static void setDebug(bool value)
void modeDDU(bool enable)
bool getByToken(EDGetToken token, Handle< PROD > &result) const
static void fillDescriptions(edm::ConfigurationDescriptions &descriptions)
CSCDetId detId(int vme, int dmb, int cfeb, int layer=0) const
CSCMonitorInterface * monitor
ExaminerStatusType errors(void) const
void crcALCT(bool enable)
const char * errName(int num) const
bool visualFEDInspect
Visualization of raw data.
size_t size() const
Lenght of the data buffer in bytes.
void produce(edm::Event &e, const edm::EventSetup &c)
Produce digis out of raw data.
uint32_t rawId() const
get the raw id
virtual void process(CSCDCCExaminer *examiner, CSCDCCEventData *dccData)=0
static void setDebug(const bool value)
void visual_raw(int hl, int id, int run, int event, bool fedshort, bool fDump, short unsigned int *buf) const
Visualization of raw data in FED-less events (Robert Harr and Alexander Sakharov) ...
std::map< CSCIdType, ExaminerStatusType > errorsDetailed(void) const
bool check(const std::string &)
static void setErrorMask(unsigned int value)
OrphanHandle< PROD > put(std::auto_ptr< PROD > product)
Put a new product.
static void setDebug(bool value)
ParameterDescriptionBase * add(U const &iLabel, T const &value)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
std::map< CSCIdType, ExaminerStatusType > statusDetailed(void) const
static void setDebug(const bool value)
ExaminerMaskType getMask() const
void setComment(std::string const &value)
edm::EDGetTokenT< FEDRawDataCollection > i_token
Token for consumes interface & access to data.
unsigned int examinerMask
T const * product() const
bool useSelectiveUnpacking
void add(std::string const &label, ParameterSetDescription const &psetDescription)
int32_t check(const uint16_t *&buffer, int32_t length)
std::map< CSCIdType, ExaminerStatusType > payloadDetailed(void) const
char data[epos_bytes_allocation]
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
CSCDCCUnpacker(const edm::ParameterSet &pset)
Constructor.
std::map< DDUIdType, ExaminerStatusType > errorsDetailedDDU(void) const
virtual ~CSCDCCUnpacker()
Destructor.
void setMask(ExaminerMaskType mask)
static void setDebug(const bool value)
static void setDebug(bool debugValue)