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L1TMuonBarrelParamsHelper.cc
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2 
3 void L1TMuonBarrelParamsHelper::print(std::ostream& out) const {
4 
5  out << "L1 BMTF Parameters" << std::endl;
6 
7  out << "Firmware version: " << fwVersion_ << std::endl;
8 }
9 
10 L1TMuonBarrelParamsHelper::L1TMuonBarrelParamsHelper(const L1TMuonBarrelParams& barrelParams) : L1TMuonBarrelParams(barrelParams) //: L1TMuonBarrelParams_PUBLIC(cast_to_L1TMuonBarrelParams_PUBLIC(barrelParams)) //: m_params_helper(barrelParams)
11 {
12 // if (pnodes_.size() != 2)
13 // pnodes_.resize(2);
14 
15 }
16 
17 void L1TMuonBarrelParamsHelper::configFromPy(std::map<std::string, int>& allInts, std::map<std::string, bool>& allBools, std::map<std::string, std::vector<std::string> > allMasks, unsigned int fwVersion, const std::string& AssLUTpath)
18 {
19  set_PT_Assignment_nbits_Phi(allInts["PT_Assignment_nbits_Phi"]);
20  set_PT_Assignment_nbits_PhiB(allInts["PT_Assignment_nbits_PhiB"]);
21  set_PHI_Assignment_nbits_Phi(allInts["PHI_Assignment_nbits_Phi"]);
22  set_PHI_Assignment_nbits_PhiB(allInts["PHI_Assignment_nbits_PhiB"]);
23  set_Extrapolation_nbits_Phi(allInts["Extrapolation_nbits_Phi"]);
24  set_Extrapolation_nbits_PhiB(allInts["Extrapolation_nbits_PhiB"]);
25  set_BX_min(allInts["BX_min"]);
26  set_BX_max(allInts["BX_max"]);
27  set_Extrapolation_Filter(allInts["Extrapolation_Filter"]);
28  set_OutOfTime_Filter_Window(allInts["OutOfTime_Filter_Window"]);
29  set_OutOfTime_Filter(allBools["OutOfTime_Filter"]);
30  set_Open_LUTs(allBools["Open_LUTs"]);
31  set_EtaTrackFinder(allBools["EtaTrackFinder"]);
32  set_Extrapolation_21(allBools["Extrapolation_21"]);
33  setFwVersion(fwVersion);
34  set_DisableNewAlgo(allBools["DisableNewAlgo"]);
35 
36  setAssLUTPath(AssLUTpath);
38  std::vector<LUT> pta_lut(0); pta_lut.reserve(19);
39  std::vector<int> pta_threshold(10);
40  if ( load_pt(pta_lut,pta_threshold, allInts["PT_Assignment_nbits_Phi"], AssLUTpath) != 0 ) {
41  cout << "Can not open files to load pt-assignment look-up tables for L1TMuonBarrelTrackProducer!" << endl;
42  }
43  setpta_lut(pta_lut);
44  setpta_threshold(pta_threshold);
45 
47  std::vector<LUT> phi_lut(0); phi_lut.reserve(2);
48  if ( load_phi(phi_lut, allInts["PHI_Assignment_nbits_Phi"], allInts["PHI_Assignment_nbits_PhiB"], AssLUTpath) != 0 ) {
49  cout << "Can not open files to load phi-assignment look-up tables for L1TMuonBarrelTrackProducer!" << endl;
50  }
51  setphi_lut(phi_lut);
52 
53 
54 
55 
56  l1mudttfparams.reset(); //KK
57  l1mudttfqualplut.load(); //KK: Do these LUTs ever change and is it safe to initialize it from the release files like that?
58  l1mudttfetaplut.load(); //KK
59  // the data members of the Helper class loaded above are transient, push those to the persistent storage of the base class:
62 
63 
64  for( int wh=-3; wh<4; wh++ ) {
65  int sec = 0;
66  for(char& c : allMasks["mask_phtf_st1"].at(wh+3) ) {
67  int mask = c - '0';
69  sec++;
70  }
71  sec = 0;
72  for(char& c : allMasks["mask_phtf_st2"].at(wh+3) ) {
73  int mask = c - '0';
75  sec++;
76  }
77  sec = 0;
78  for(char& c : allMasks["mask_phtf_st3"].at(wh+3) ) {
79  int mask = c - '0';
81  sec++;
82  }
83  sec = 0;
84  for(char& c : allMasks["mask_phtf_st4"].at(wh+3) ) {
85  int mask = c - '0';
87  sec++;
88  }
89  sec = 0;
90  for(char& c : allMasks["mask_ettf_st1"].at(wh+3) ) {
91  int mask = c - '0';
93  sec++;
94  }
95  sec = 0;
96  for(char& c : allMasks["mask_ettf_st2"].at(wh+3) ) {
97  int mask = c - '0';
99  sec++;
100  }
101  sec = 0;
102  for(char& c : allMasks["mask_ettf_st3"].at(wh+3) ) {
103  int mask = c - '0';
104  l1mudttfmasks.set_etsoc_chdis_st3(wh,sec,mask);
105  //Not used in BMTF - mask
106  l1mudttfmasks.set_inrec_chdis_csc(wh,sec,true);
107  sec++;
108  }
109 
110  }
111 
112 
114  std::vector<L1TMuonBarrelParams::LUTParams::extLUT> ext_lut(0); ext_lut.reserve(12);
115  if ( load_ext(ext_lut, allInts["PHI_Assignment_nbits_Phi"], allInts["PHI_Assignment_nbits_PhiB"]) != 0 ) {
116  cout << "Can not open files to load extrapolation look-up tables for L1TMuonBarrelTrackProducer!" << endl;
117  }
118  setext_lut(ext_lut);
119 
120  //l1mudttfextlut.load();
121 }
122 
124 {
125  std::map<std::string, std::string> procRole = trgSys.getProcRole();
126 
127  for(auto it_proc=procRole.begin(); it_proc!=procRole.end(); it_proc++ )
128  {
129 
130  std::string procId = it_proc->first;
131 
132  std::map<std::string, l1t::Setting> settings = trgSys.getSettings(procId);
133  std::vector<l1t::TableRow> tRow = settings["regTable"].getTableRows();
134  for(auto it=tRow.begin(); it!=tRow.end(); it++)
135  {
136  if (it->getRowValue<std::string>("register_path").find("open_lut") != std::string::npos){
137  //std::cout << "Value is: " << it->getRowValue<bool>("register_value") << std::endl;
138  set_Open_LUTs(it->getRowValue<bool>("register_value"));
139  }
140  if (it->getRowValue<std::string>("register_path").find("sel_21") != std::string::npos){
141  //std::cout << "Value is: " << it->getRowValue<bool>("register_value") << std::endl;
142  set_Extrapolation_21(it->getRowValue<bool>("register_value"));
143  }
144 
145  if (it->getRowValue<std::string>("register_path").find("dis_newalgo") != std::string::npos){
146  //std::cout << "Value is: " << it->getRowValue<int>("register_value") << std::endl;
147  //int fwv = (it->getRowValue<int>("register_value")==1) ? 1 : 2;
148  //setFwVersion(fwv);
149  bool disnewalgo = (it->getRowValue<int>("register_value")==1);
150  set_DisableNewAlgo(disnewalgo);
151  }
152 
153  string masks[5] = {"mask_ctrl_N2", "mask_ctrl_N1", "mask_ctrl_0", "mask_ctrl_P1", "mask_ctrl_P2"};
154 
155  for(int m=0; m<5; m++)
156  {
157 
158  if (it->getRowValue<std::string>("register_path").find(masks[m]) != std::string::npos){
159  string mask_ctrl = it->getRowValue<string>("register_value");
160  const char *hexstring = mask_ctrl.c_str();
162  int mask = (int)strtol((hexstring+7), NULL, 16);
163  int mask_all = (int)strtol((hexstring), NULL, 16);
165  if(!( mask_all==0x111111 || mask_all==0x222222 || mask_all==0x333333 || mask_all==0x444444 ||
166  mask_all==0x555555 || mask_all==0x666666 || mask_all==0x777777) )
167  cerr<<"BMTF: Cannot re-emulate properly. Individual link masking cannot be handled."<<endl;
168 
169  if((mask&1)>0) {
170  for(int sec=0; sec<12; sec++){
171  if(masks[m]=="mask_ctrl_N2"){
172  l1mudttfmasks.set_inrec_chdis_st1(-3,sec,true);
173  l1mudttfmasks.set_etsoc_chdis_st1(-3,sec,true);
174  }
175  if(masks[m]=="mask_ctrl_N1"){
176  l1mudttfmasks.set_inrec_chdis_st1(-2,sec,true);
177  l1mudttfmasks.set_etsoc_chdis_st1(-2,sec,true);
178  }
179 
180  if(masks[m]=="mask_ctrl_0"){
181  l1mudttfmasks.set_inrec_chdis_st1(-1,sec,true);
183  l1mudttfmasks.set_etsoc_chdis_st1(-1,sec,true);
185  }
186  if(masks[m]=="mask_ctrl_P1"){
189  }
190  if(masks[m]=="mask_ctrl_P2"){
193  }
194  }
195 
196  }
197 
198  if((mask&2)>0) {
199  for(int sec=0; sec<12; sec++){
200  if(masks[m]=="mask_ctrl_N2"){
201  l1mudttfmasks.set_inrec_chdis_st2(-3,sec,true);
202  l1mudttfmasks.set_etsoc_chdis_st2(-3,sec,true);
203  }
204  if(masks[m]=="mask_ctrl_N1"){
205  l1mudttfmasks.set_inrec_chdis_st2(-2,sec,true);
206  l1mudttfmasks.set_etsoc_chdis_st2(-2,sec,true);
207  }
208 
209  if(masks[m]=="mask_ctrl_0"){
210  l1mudttfmasks.set_inrec_chdis_st2(-1,sec,true);
212  l1mudttfmasks.set_etsoc_chdis_st2(-1,sec,true);
214  }
215  if(masks[m]=="mask_ctrl_P1"){
218  }
219  if(masks[m]=="mask_ctrl_P2"){
222  }
223  }
224  }
225 
226  if((mask&4)>0) {
227  for(int sec=0; sec<12; sec++){
228  if(masks[m]=="mask_ctrl_N2"){
229  l1mudttfmasks.set_inrec_chdis_st3(-3,sec,true);
230  l1mudttfmasks.set_etsoc_chdis_st3(-3,sec,true);
231  }
232  if(masks[m]=="mask_ctrl_N1"){
233  l1mudttfmasks.set_inrec_chdis_st3(-2,sec,true);
234  l1mudttfmasks.set_etsoc_chdis_st3(-2,sec,true);
235  }
236 
237  if(masks[m]=="mask_ctrl_0"){
238  l1mudttfmasks.set_inrec_chdis_st3(-1,sec,true);
240  l1mudttfmasks.set_etsoc_chdis_st3(-1,sec,true);
242  }
243  if(masks[m]=="mask_ctrl_P1"){
246  }
247  if(masks[m]=="mask_ctrl_P2"){
250  }
251  }
252  }
253 
254  if((mask&8)>0) {
255  for(int sec=0; sec<12; sec++){
256  if(masks[m]=="mask_ctrl_N2"){
257  l1mudttfmasks.set_inrec_chdis_st4(-3,sec,true);
258  }
259  if(masks[m]=="mask_ctrl_N1"){
260  l1mudttfmasks.set_inrec_chdis_st4(-2,sec,true);
261  }
262 
263  if(masks[m]=="mask_ctrl_0"){
264  l1mudttfmasks.set_inrec_chdis_st4(-1,sec,true);
266  }
267  if(masks[m]=="mask_ctrl_P1"){
269  }
270  if(masks[m]=="mask_ctrl_P2"){
272  }
273  }
274  }
275  }
276  }
277  }
278  }
279 }
280 
281 int L1TMuonBarrelParamsHelper::load_pt(std::vector<LUT>& pta_lut,
282  std::vector<int>& pta_threshold,
283  unsigned short int nbitphi,
284  std::string AssLUTpath
285  ){
286 
287 
288 // maximal number of pt assignment methods
289 const int MAX_PTASSMETH = 19;
290 const int MAX_PTASSMETHA = 12;
291 
292 // pt assignment methods
295  PB12H, PB13H, PB14H, PB21H, PB23H, PB24H, PB34H,
296  NODEF };
297 
298  // get directory name
299  string pta_str = "";
300  // precision : in the look-up tables the following precision is used :
301  // phi ...12 bits (address) and pt ...5 bits
302  // now convert phi and phib to the required precision
303  int nbit_phi = nbitphi;
304  int sh_phi = 12 - nbit_phi;
305 
306  // loop over all pt-assignment methods
307  for ( int pam = 0; pam < MAX_PTASSMETH; pam++ ) {
308  switch ( pam ) {
309  case PT12L : { pta_str = "pta12l"; break; }
310  case PT12H : { pta_str = "pta12h"; break; }
311  case PT13L : { pta_str = "pta13l"; break; }
312  case PT13H : { pta_str = "pta13h"; break; }
313  case PT14L : { pta_str = "pta14l"; break; }
314  case PT14H : { pta_str = "pta14h"; break; }
315  case PT23L : { pta_str = "pta23l"; break; }
316  case PT23H : { pta_str = "pta23h"; break; }
317  case PT24L : { pta_str = "pta24l"; break; }
318  case PT24H : { pta_str = "pta24h"; break; }
319  case PT34L : { pta_str = "pta34l"; break; }
320  case PT34H : { pta_str = "pta34h"; break; }
321  case PB12H : { pta_str = "ptb12h_Feb2016"; break; }
322  case PB13H : { pta_str = "ptb13h_Feb2016"; break; }
323  case PB14H : { pta_str = "ptb14h_Feb2016"; break; }
324  case PB21H : { pta_str = "ptb21h_Feb2016"; break; }
325  case PB23H : { pta_str = "ptb23h_Feb2016"; break; }
326  case PB24H : { pta_str = "ptb24h_Feb2016"; break; }
327  case PB34H : { pta_str = "ptb34h_Feb2016"; break; }
328 
329  }
330 
331  // assemble file name
332  string lutpath = AssLUTpath;
333  edm::FileInPath lut_f = edm::FileInPath(string(lutpath + pta_str + ".lut"));
334  string pta_file = lut_f.fullPath();
335 
336  // open file
337  L1TriggerLutFile file(pta_file);
338  if ( file.open() != 0 ) return -1;
339 
340  // get the right shift factor
341  int shift = sh_phi;
342  int adr_old = -2048 >> shift;
343  if (pam >= MAX_PTASSMETHA) adr_old = -512 >> shift;
344 
345  LUT tmplut;
346 
347  int number = -1;
348  int sum_pt = 0;
349 
350  if ( file.good() ) {
351  int threshold = file.readInteger();
352  pta_threshold[pam/2] = threshold;
353  }
354 
355  // read values and shift to correct precision
356  while ( file.good() ) {
357 
358  int adr = (file.readInteger()) >> shift;
359  int pt = file.readInteger();
360 
361  number++;
362  //cout<<pam<<" "<<number<<" "<<MAX_PTASSMETHA<<endl;
363  if ( adr != adr_old ) {
364  assert(number);
365  tmplut.insert(make_pair( adr_old, (sum_pt/number) ));
366 
367  adr_old = adr;
368  number = 0;
369  sum_pt = 0;
370  }
371 
372  sum_pt += pt;
373 
374  if ( !file.good() ) file.close();
375 
376  }
377 
378  file.close();
379  pta_lut.push_back(tmplut);
380  }
381  return 0;
382 
383 }
384 
385 
386 
387 
388 int L1TMuonBarrelParamsHelper::load_phi(std::vector<LUT>& phi_lut,
389  unsigned short int nbit_phi,
390  unsigned short int nbit_phib,
391  std::string AssLUTpath
392  ) {
393 
394 
395  // precision : in the look-up tables the following precision is used :
396  // address (phib) ...10 bits, phi ... 12 bits
397 
398  int sh_phi = 12 - nbit_phi;
399  int sh_phib = 10 - nbit_phib;
400 
401  string phi_str;
402  // loop over all phi-assignment methods
403  for ( int idx = 0; idx < 2; idx++ ) {
404  switch ( idx ) {
405  case 0 : { phi_str = "phi12"; break; }
406  case 1 : { phi_str = "phi42"; break; }
407  }
408 
409  // assemble file name
410  edm::FileInPath lut_f = edm::FileInPath(string(AssLUTpath + phi_str + ".lut"));
411  string phi_file = lut_f.fullPath();
412 
413  // open file
414  L1TriggerLutFile file(phi_file);
415  if ( file.open() != 0 ) return -1;
416 
417  LUT tmplut;
418 
419  int number = -1;
420  int adr_old = -512 >> sh_phib;
421  int sum_phi = 0;
422 
423  // read values
424  while ( file.good() ) {
425 
426  int adr = (file.readInteger()) >> sh_phib;
427  int phi = file.readInteger();
428 
429  number++;
430 
431  if ( adr != adr_old ) {
432  assert(number);
433  tmplut.insert(make_pair( adr_old, ((sum_phi/number) >> sh_phi) ));
434 
435  adr_old = adr;
436  number = 0;
437  sum_phi = 0;
438  }
439 
440  sum_phi += phi;
441 
442  if ( !file.good() ) file.close();
443 
444  }
445 
446  file.close();
447  phi_lut.push_back(tmplut);
448  }
449  return 0;
450 
451 }
452 
453 /*
454 int L1TMuonBarrelParamsESProducer::getPtLutThreshold(int pta_ind, std::vector<int>& pta_threshold) const {
455 
456  if ( pta_ind >= 0 && pta_ind < 13/2 ) {
457  return pta_threshold[pta_ind];
458  }
459  else {
460  cerr << "PtaLut::getPtLutThreshold : can not find threshold " << pta_ind << endl;
461  return 0;
462  }
463 
464 }
465 
466 */
467 
468 
469 
470 
471 //
472 // load extrapolation look-up tables
473 //
474 int L1TMuonBarrelParamsHelper::load_ext(std::vector<L1TMuonBarrelParams::LUTParams::extLUT>& ext_lut,
475  unsigned short int nbit_phi,
476  unsigned short int nbit_phib) {
477 
478  //max. number of Extrapolations
479  const int MAX_EXT = 12;
480 
481  // extrapolation types
482  enum Extrapolation { EX12, EX13, EX14, EX21, EX23, EX24, EX34,
483  EX15, EX16, EX25, EX26, EX56 };
484 
485  // get directory name
486  string defaultPath = "L1Trigger/L1TMuon/data/bmtf_luts/";
487  string ext_dir = "LUTs_Ext/";
488  string ext_str = "";
489 
490  // precision : in the look-up tables the following precision is used :
491  // phi ...12 bits (low, high), phib ...10 bits (address)
492  // now convert phi and phib to the required precision
493 
494  int sh_phi = 12 - nbit_phi;
495  int sh_phib = 10 - nbit_phib;
496 
497  // loop over all extrapolations
498  for ( int ext = 0; ext < MAX_EXT; ext++ ) {
499  switch (ext) {
500  case EX12 : ext_str = "ext12"; break;
501  case EX13 : ext_str = "ext13"; break;
502  case EX14 : ext_str = "ext14"; break;
503  case EX21 : ext_str = "ext21"; break;
504  case EX23 : ext_str = "ext23"; break;
505  case EX24 : ext_str = "ext24"; break;
506  case EX34 : ext_str = "ext34"; break;
507  case EX15 : ext_str = "ext15"; break;
508  case EX16 : ext_str = "ext16"; break;
509  case EX25 : ext_str = "ext25"; break;
510  case EX26 : ext_str = "ext26"; break;
511  case EX56 : ext_str = "ext56"; break;
512  }
513 
514  // assemble file name
515  edm::FileInPath lut_f = edm::FileInPath(string(defaultPath + ext_dir + ext_str + ".lut"));
516  string ext_file = lut_f.fullPath();
517 
518  // open file
519  L1TriggerLutFile file(ext_file);
520  if ( file.open() != 0 ) return -1;
521  // if ( L1MuDTTFConfig::Debug(1) ) cout << "Reading file : "
522  // << file.getName() << endl;
523 
525 
526  int number = -1;
527  int adr_old = -512 >> sh_phib;
528  int sum_low = 0;
529  int sum_high = 0;
530 
531  // read values and shift to correct precision
532  while ( file.good() ) {
533 
534  int adr = ( file.readInteger() ) >> sh_phib; // address (phib)
535  int low = ( file.readInteger() ); // low value (phi)
536  int high = ( file.readInteger() ); // high value (phi)
537 
538  number++;
539 
540  if ( adr != adr_old ) {
541 
542  tmplut.low[adr_old] = sum_low >> sh_phi;
543  tmplut.high[adr_old] = sum_high >> sh_phi;
544 
545  adr_old = adr;
546  number = 0;
547  sum_low = 0;
548  sum_high = 0;
549 
550  }
551 
552  if (number == 0) sum_low = low;
553  if (number == 0) sum_high = high;
554 
555  if ( !file.good() ) file.close();
556  }
557 
558  file.close();
559  ext_lut.push_back(tmplut);
560  }
561  return 0;
562 
563 }
void configFromDB(l1t::TrigSystem &trgSys)
const std::map< std::string, std::string > & getProcRole()
Definition: TrigSystem.h:31
L1MuDTTFParameters l1mudttfparams
void set_etsoc_chdis_st1(int wh, int sc, const bool val)
int load_phi(std::vector< LUT > &, unsigned short int, unsigned short int, std::string)
std::vector< LUT > phi_lut() const
assert(m_qm.get())
void set_etsoc_chdis_st2(int wh, int sc, const bool val)
bool good()
return status of file stream
#define NULL
Definition: scimark2.h:8
int load()
load pattern look-up table
std::vector< LUT > pta_lut() const
std::vector< int > pta_threshold() const
std::vector< LUTParams::extLUT > ext_lut() const
void setphi_lut(std::vector< LUT > philut)
int load_ext(std::vector< L1TMuonBarrelParams::LUTParams::extLUT > &, unsigned short int, unsigned short int)
L1MuDTTFMasks l1mudttfmasks
void close()
close file
const int MAX_EXT
void setpta_lut(std::vector< LUT > ptalut)
void set_inrec_chdis_st4(int wh, int sc, const bool val)
Extrapolation
int load_pt(std::vector< LUT > &, std::vector< int > &, unsigned short int, std::string)
if configDB
int load()
load look-up tables
void reset()
reset parameters to zero
std::map< std::string, Setting > getSettings(const std::string &processor)
Definition: TrigSystem.cc:179
void setAssLUTPath(std::string path)
L1MuDTQualPatternLut l1mudttfqualplut
friend std::ostream&amp; operator&lt;&lt;(std::ostream&amp; o, const L1TMuonBarrelParams &amp; p) { p...
tuple idx
DEBUGGING if hasattr(process,&quot;trackMonIterativeTracking2012&quot;): print &quot;trackMonIterativeTracking2012 D...
void set_inrec_chdis_st2(int wh, int sc, const bool val)
std::map< short, short, std::less< short > > LUT
L1MuBMPtaLut.
void set_inrec_chdis_st3(int wh, int sc, const bool val)
void setFwVersion(unsigned fwVersion)
void set_etsoc_chdis_st3(int wh, int sc, const bool val)
void setext_lut(std::vector< LUTParams::extLUT > extlut)
void configFromPy(std::map< std::string, int > &allInts, std::map< std::string, bool > &allBools, std::map< std::string, std::vector< std::string > > allMasks, unsigned int fwVersion, const std::string &AssLUTpath)
int readInteger()
read one integer from file
constexpr uint32_t masks[]
Definition: CaloRecHit.cc:12
static unsigned int const shift
void print(std::ostream &) const
tuple cout
Definition: gather_cfg.py:145
std::string fullPath() const
Definition: FileInPath.cc:184
int open()
open file
void setpta_threshold(std::vector< int > ptathresh)
void set_inrec_chdis_csc(int wh, int sc, const bool val)
const int MAX_PTASSMETH
void set_inrec_chdis_st1(int wh, int sc, const bool val)
PtAssMethod