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DDTIBLayerAlgo Class Reference
Inheritance diagram for DDTIBLayerAlgo:

Public Member Functions

 DDTIBLayerAlgo ()
 
void execute (DDCompactView &cpv) override
 
void initialize (const DDNumericArguments &nArgs, const DDVectorArguments &vArgs, const DDMapArguments &mArgs, const DDStringArguments &sArgs, const DDStringVectorArguments &vsArgs) override
 
 ~DDTIBLayerAlgo () override
 

Private Attributes

double bwExtPillarDPhi
 
double bwExtPillarDz
 
vector< double > bwExtPillarPhi
 
vector< double > bwExtPillarZ
 
double bwIntPillarDPhi
 
double bwIntPillarDz
 
vector< double > bwIntPillarPhi
 
vector< double > bwIntPillarZ
 
string centMat
 
vector< double > centRing1par
 
vector< double > centRing2par
 
double cylinderInR
 
string cylinderMat
 
double cylinderT
 
string detectorLo
 
double detectorTilt
 
string detectorUp
 
double dohmAuxL
 
string dohmAuxMaterial
 
string dohmAuxName
 
string dohmCableMaterial
 
string dohmCarrierMaterial
 
double dohmCarrierPhiOff
 
vector< double > dohmListBW
 
vector< double > dohmListFW
 
double dohmPrimL
 
string dohmPrimMaterial
 
string dohmPrimName
 
double dohmtoMF
 
double fillerDz
 
string fillerMat
 
double fwExtPillarDPhi
 
double fwExtPillarDz
 
vector< double > fwExtPillarPhi
 
vector< double > fwExtPillarZ
 
double fwIntPillarDPhi
 
double fwIntPillarDz
 
vector< double > fwIntPillarPhi
 
vector< double > fwIntPillarZ
 
string genMat
 
string idNameSpace
 
double layerL
 
string MFExtRingMat
 
string MFIntRingMat
 
double MFRingDz
 
double MFRingInR
 
double MFRingOutR
 
double MFRingT
 
double phioffLo
 
double phioffUp
 
string pillarMaterial
 
double radiusLo
 
double radiusUp
 
string ribMat
 
vector< double > ribPhi
 
vector< double > ribW
 
int stringsLo
 
int stringsUp
 
double supportT
 

Detailed Description

Definition at line 26 of file DDTIBLayerAlgo.cc.

Constructor & Destructor Documentation

◆ DDTIBLayerAlgo()

DDTIBLayerAlgo::DDTIBLayerAlgo ( )

Definition at line 115 of file DDTIBLayerAlgo.cc.

115  : ribW(0), ribPhi(0) {
116  LogDebug("TIBGeom") << "DDTIBLayerAlgo info: Creating an instance";
117 }

References LogDebug.

◆ ~DDTIBLayerAlgo()

DDTIBLayerAlgo::~DDTIBLayerAlgo ( )
override

Definition at line 119 of file DDTIBLayerAlgo.cc.

119 {}

Member Function Documentation

◆ execute()

void DDTIBLayerAlgo::execute ( DDCompactView cpv)
override

Definition at line 256 of file DDTIBLayerAlgo.cc.

256  {
257  LogDebug("TIBGeom") << "==>> Constructing DDTIBLayerAlgo...";
258 
259  DDName parentName = parent().name();
260  const string& idName = parentName.name();
261 
262  double rmin = MFRingInR;
263  double rmax = MFRingOutR;
264 
265  DDSolid solid = DDSolidFactory::tubs(DDName(idName, idNameSpace), 0.5 * layerL, rmin, rmax, 0, CLHEP::twopi);
266 
267  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(idName, idNameSpace) << " Tubs made of " << genMat
268  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rmin << " Rout " << rmax
269  << " ZHalf " << 0.5 * layerL;
270 
272  DDMaterial matter(matname);
273  DDLogicalPart layer(solid.ddname(), matter, solid);
274 
275  //Internal layer first
276  double rin = rmin + MFRingT;
277  // double rout = 0.5*(radiusLo+radiusUp-cylinderT);
278  double rout = cylinderInR;
279  string name = idName + "Down";
280  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), 0.5 * layerL, rin, rout, 0, CLHEP::twopi);
281  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << genMat
282  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
283  << " ZHalf " << 0.5 * layerL;
284  DDLogicalPart layerIn(solid.ddname(), matter, solid);
285  cpv.position(layerIn, layer, 1, DDTranslation(0.0, 0.0, 0.0), DDRotation());
286  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << layerIn.name() << " number 1 positioned in " << layer.name()
287  << " at (0,0,0) with no rotation";
288 
289  double rposdet = radiusLo;
290  double dphi = CLHEP::twopi / stringsLo;
292  for (int n = 0; n < stringsLo; n++) {
293  double phi = (n + 0.5) * dphi;
294  double phix = phi - detectorTilt + 90 * CLHEP::deg;
295  double phideg = phix / CLHEP::deg;
297  if (phideg != 0) {
298  double theta = 90 * CLHEP::deg;
299  double phiy = phix + 90. * CLHEP::deg;
300  string rotstr = idName + to_string(phideg * 10.);
302  if (!rotation) {
303  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: Creating a new "
304  << "rotation: " << rotstr << "\t90., " << phix / CLHEP::deg << ", 90.," << phiy / CLHEP::deg
305  << ", 0, 0";
306  rotation = DDrot(DDName(rotstr, idNameSpace), theta, phix, theta, phiy, 0., 0.);
307  }
308  }
309  DDTranslation trdet(rposdet * cos(phi), rposdet * sin(phi), 0);
310  cpv.position(detIn, layerIn, n + 1, trdet, rotation);
311  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << detIn.name() << " number " << n + 1 << " positioned in "
312  << layerIn.name() << " at " << trdet << " with " << rotation;
313  }
314 
315  //Now the external layer
316  rin = cylinderInR + cylinderT;
317  rout = rmax - MFRingT;
318  name = idName + "Up";
319  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), 0.5 * layerL, rin, rout, 0, CLHEP::twopi);
320  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << genMat
321  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
322  << " ZHalf " << 0.5 * layerL;
323  DDLogicalPart layerOut(solid.ddname(), matter, solid);
324  cpv.position(layerOut, layer, 1, DDTranslation(0.0, 0.0, 0.0), DDRotation());
325  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << layerOut.name() << " number 1 positioned in " << layer.name()
326  << " at (0,0,0) with no rotation";
327 
328  rposdet = radiusUp;
329  dphi = CLHEP::twopi / stringsUp;
331  for (int n = 0; n < stringsUp; n++) {
332  double phi = (n + 0.5) * dphi;
333  double phix = phi - detectorTilt - 90 * CLHEP::deg;
334  double phideg = phix / CLHEP::deg;
336  if (phideg != 0) {
337  double theta = 90 * CLHEP::deg;
338  double phiy = phix + 90. * CLHEP::deg;
339  string rotstr = idName + to_string(phideg * 10.);
341  if (!rotation) {
342  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: Creating a new "
343  << "rotation: " << rotstr << "\t90., " << phix / CLHEP::deg << ", 90.," << phiy / CLHEP::deg
344  << ", 0, 0";
345  rotation = DDrot(DDName(rotstr, idNameSpace), theta, phix, theta, phiy, 0., 0.);
346  }
347  }
348  DDTranslation trdet(rposdet * cos(phi), rposdet * sin(phi), 0);
349  cpv.position(detOut, layerOut, n + 1, trdet, rotation);
350  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << detOut.name() << " number " << n + 1 << " positioned in "
351  << layerOut.name() << " at " << trdet << " with " << rotation;
352  }
353 
354  //
355  // Inner cylinder, support wall and ribs
356  //
357  // External skins
358  rin = cylinderInR;
359  rout = cylinderInR + cylinderT;
360  name = idName + "Cylinder";
361  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), 0.5 * layerL, rin, rout, 0, CLHEP::twopi);
362  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << cylinderMat
363  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
364  << " ZHalf " << 0.5 * layerL;
366  DDMaterial matcyl(matname);
367  DDLogicalPart cylinder(solid.ddname(), matcyl, solid);
368  cpv.position(cylinder, layer, 1, DDTranslation(0.0, 0.0, 0.0), DDRotation());
369  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << cylinder.name() << " number 1 positioned in " << layer.name()
370  << " at (0,0,0) with no rotation";
371  //
372  // inner part of the cylinder
373  //
374  rin += supportT;
375  rout -= supportT;
376  name = idName + "CylinderIn";
377  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), 0.5 * layerL, rin, rout, 0, CLHEP::twopi);
378  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << genMat
379  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
380  << " ZHalf " << 0.5 * layerL;
381  DDLogicalPart cylinderIn(solid.ddname(), matter, solid);
382  cpv.position(cylinderIn, cylinder, 1, DDTranslation(0.0, 0.0, 0.0), DDRotation());
383  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << cylinderIn.name() << " number 1 positioned in " << cylinder.name()
384  << " at (0,0,0) with no rotation";
385  //
386  // Filler Rings
387  //
389  DDMaterial matfiller(matname);
390  name = idName + "Filler";
391  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), fillerDz, rin, rout, 0., CLHEP::twopi);
392  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << fillerMat
393  << " from " << 0. << " to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout "
394  << rout << " ZHalf " << fillerDz;
395  DDLogicalPart cylinderFiller(solid.ddname(), matfiller, solid);
396  cpv.position(cylinderFiller, cylinderIn, 1, DDTranslation(0.0, 0.0, 0.5 * layerL - fillerDz), DDRotation());
397  cpv.position(cylinderFiller, cylinderIn, 2, DDTranslation(0.0, 0.0, -0.5 * layerL + fillerDz), DDRotation());
398  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << cylinderFiller.name() << " number 1"
399  << " positioned in " << cylinderIn.name() << " at "
400  << DDTranslation(0.0, 0.0, 0.5 * layerL - fillerDz) << " number 2"
401  << " positioned in " << cylinderIn.name() << " at "
402  << DDTranslation(0.0, 0.0, -0.5 * layerL + fillerDz);
403 
404  //
405  // Ribs
406  //
408  DDMaterial matrib(matname);
409  for (int i = 0; i < (int)(ribW.size()); i++) {
410  name = idName + "Rib" + to_string(i);
411  double width = 2. * ribW[i] / (rin + rout);
412  double dz = 0.5 * layerL - 2. * fillerDz;
413  solid = DDSolidFactory::tubs(
414  DDName(name, idNameSpace), dz, rin + 0.5 * CLHEP::mm, rout - 0.5 * CLHEP::mm, -0.5 * width, width);
415  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << ribMat
416  << " from " << -0.5 * width / CLHEP::deg << " to " << 0.5 * width / CLHEP::deg << " with Rin "
417  << rin + 0.5 * CLHEP::mm << " Rout " << rout - 0.5 * CLHEP::mm << " ZHalf " << dz;
418  DDLogicalPart cylinderRib(solid.ddname(), matrib, solid);
419  double phix = ribPhi[i];
420  double phideg = phix / CLHEP::deg;
422  if (phideg != 0) {
423  double theta = 90 * CLHEP::deg;
424  double phiy = phix + 90. * CLHEP::deg;
425  string rotstr = idName + to_string(phideg * 10.);
427  if (!rotation) {
428  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: Creating a new "
429  << "rotation: " << rotstr << "\t90., " << phix / CLHEP::deg << ", 90.," << phiy / CLHEP::deg
430  << ", 0, 0";
431  rotation = DDrot(DDName(rotstr, idNameSpace), theta, phix, theta, phiy, 0., 0.);
432  }
433  }
434  DDTranslation tran(0, 0, 0);
435  cpv.position(cylinderRib, cylinderIn, 1, tran, rotation);
436  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << cylinderRib.name() << " number 1"
437  << " positioned in " << cylinderIn.name() << " at " << tran << " with " << rotation;
438  }
439 
440  //Manifold rings
441  //
442  // Inner ones first
444  DDMaterial matintmfr(matname);
445  rin = MFRingInR;
446  rout = rin + MFRingT;
447  name = idName + "InnerMFRing";
448  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), MFRingDz, rin, rout, 0, CLHEP::twopi);
449 
450  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << MFIntRingMat
451  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
452  << " ZHalf " << MFRingDz;
453 
454  DDLogicalPart inmfr(solid.ddname(), matintmfr, solid);
455  cpv.position(inmfr, layer, 1, DDTranslation(0.0, 0.0, -0.5 * layerL + MFRingDz), DDRotation());
456  cpv.position(inmfr, layer, 2, DDTranslation(0.0, 0.0, +0.5 * layerL - MFRingDz), DDRotation());
457  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << inmfr.name() << " number 1 and 2 positioned in " << layer.name()
458  << " at (0,0,+-" << 0.5 * layerL - MFRingDz << ") with no rotation";
459  // Outer ones
461  DDMaterial matextmfr(matname);
462  rout = MFRingOutR;
463  rin = rout - MFRingT;
464  name = idName + "OuterMFRing";
465  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), MFRingDz, rin, rout, 0, CLHEP::twopi);
466 
467  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << MFExtRingMat
468  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
469  << " ZHalf " << MFRingDz;
470 
471  DDLogicalPart outmfr(solid.ddname(), matextmfr, solid);
472  cpv.position(outmfr, layer, 1, DDTranslation(0.0, 0.0, -0.5 * layerL + MFRingDz), DDRotation());
473  cpv.position(outmfr, layer, 2, DDTranslation(0.0, 0.0, +0.5 * layerL - MFRingDz), DDRotation());
474  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << outmfr.name() << " number 1 and 2 positioned in " << layer.name()
475  << " at (0,0,+-" << 0.5 * layerL - MFRingDz << ") with no rotation";
476 
477  //Central Support rings
478  //
480  DDMaterial matcent(matname);
481  // Ring 1
482  double centZ = centRing1par[0];
483  double centDz = 0.5 * centRing1par[1];
484  rin = centRing1par[2];
485  rout = centRing1par[3];
486  name = idName + "CentRing1";
487  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), centDz, rin, rout, 0, CLHEP::twopi);
488 
489  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << centMat
490  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
491  << " ZHalf " << centDz;
492 
493  DDLogicalPart cent1(solid.ddname(), matcent, solid);
494  cpv.position(cent1, layer, 1, DDTranslation(0.0, 0.0, centZ), DDRotation());
495  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << cent1.name() << " positioned in " << layer.name() << " at (0,0,"
496  << centZ << ") with no rotation";
497  // Ring 2
498  centZ = centRing2par[0];
499  centDz = 0.5 * centRing2par[1];
500  rin = centRing2par[2];
501  rout = centRing2par[3];
502  name = idName + "CentRing2";
503  solid = DDSolidFactory::tubs(DDName(name, idNameSpace), centDz, rin, rout, 0, CLHEP::twopi);
504 
505  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << centMat
506  << " from 0 to " << CLHEP::twopi / CLHEP::deg << " with Rin " << rin << " Rout " << rout
507  << " ZHalf " << centDz;
508 
509  DDLogicalPart cent2(solid.ddname(), matcent, solid);
510  cpv.position(cent2, layer, 1, DDTranslation(0.0, 0.0, centZ), DDRotation());
511  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << cent2.name() << " positioned in " << layer.name() << " at (0,0,"
512  << centZ << ") with no rotation";
513 
515  //
516  // Preparing DOHM Carrier solid
517 
518  name = idName + "DOHMCarrier";
519 
520  double dohmCarrierRin = MFRingOutR - MFRingT;
521  double dohmCarrierRout = MFRingOutR;
522  double dohmCarrierDz = 0.5 * (dohmPrimL + dohmtoMF);
523  double dohmCarrierZ = 0.5 * layerL - 2. * MFRingDz - dohmCarrierDz;
524 
526  dohmCarrierDz,
527  dohmCarrierRin,
528  dohmCarrierRout,
530  180. * CLHEP::deg - 2. * dohmCarrierPhiOff);
531  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << dohmCarrierMaterial
532  << " from " << dohmCarrierPhiOff << " to " << 180. * CLHEP::deg - dohmCarrierPhiOff
533  << " with Rin " << dohmCarrierRin << " Rout " << MFRingOutR << " ZHalf " << dohmCarrierDz;
534 
535  // Define FW and BW carrier logical volume and
536  // place DOHM Primary and auxiliary modules inside it
537 
538  dphi = CLHEP::twopi / stringsUp;
539 
540  DDRotation dohmRotation;
541 
542  double dohmR = 0.5 * (dohmCarrierRin + dohmCarrierRout);
543 
544  for (int j = 0; j < 4; j++) {
545  vector<double> dohmList;
546  DDTranslation tran;
547  string rotstr;
549  int dohmCarrierReplica = 0;
550  int placeDohm = 0;
551 
552  switch (j) {
553  case 0:
554  name = idName + "DOHMCarrierFW";
555  dohmList = dohmListFW;
556  tran = DDTranslation(0., 0., dohmCarrierZ);
557  rotstr = idName + "FwUp";
558  rotation = DDRotation();
559  dohmCarrierReplica = 1;
560  placeDohm = 1;
561  break;
562  case 1:
563  name = idName + "DOHMCarrierFW";
564  dohmList = dohmListFW;
565  tran = DDTranslation(0., 0., dohmCarrierZ);
566  rotstr = idName + "FwDown";
567  rotation = DDrot(DDName(rotstr, idNameSpace),
568  90. * CLHEP::deg,
569  180. * CLHEP::deg,
570  90. * CLHEP::deg,
571  270. * CLHEP::deg,
572  0.,
573  0.);
574  dohmCarrierReplica = 2;
575  placeDohm = 0;
576  break;
577  case 2:
578  name = idName + "DOHMCarrierBW";
579  dohmList = dohmListBW;
580  tran = DDTranslation(0., 0., -dohmCarrierZ);
581  rotstr = idName + "BwUp";
582  rotation = DDrot(DDName(rotstr, idNameSpace),
583  90. * CLHEP::deg,
584  180. * CLHEP::deg,
585  90. * CLHEP::deg,
586  90. * CLHEP::deg,
587  180. * CLHEP::deg,
588  0.);
589  dohmCarrierReplica = 1;
590  placeDohm = 1;
591  break;
592  case 3:
593  name = idName + "DOHMCarrierBW";
594  dohmList = dohmListBW;
595  tran = DDTranslation(0., 0., -dohmCarrierZ);
596  rotstr = idName + "BwDown";
597  rotation = DDrot(DDName(rotstr, idNameSpace),
598  90. * CLHEP::deg,
599  0.,
600  90. * CLHEP::deg,
601  270. * CLHEP::deg,
602  180. * CLHEP::deg,
603  0.);
604  dohmCarrierReplica = 2;
605  placeDohm = 0;
606  break;
607  }
608 
609  DDLogicalPart dohmCarrier(name, DDMaterial(dohmCarrierMaterial), solid);
610 
611  int primReplica = 0;
612  int auxReplica = 0;
613 
614  for (int i = 0; i < placeDohm * ((int)(dohmList.size())); i++) {
615  double phi = (abs(dohmList[i]) + 0.5 - 1.) * dphi;
616  double phix = phi + 90 * CLHEP::deg;
617  double phideg = phix / CLHEP::deg;
618  if (phideg != 0) {
619  double theta = 90 * CLHEP::deg;
620  double phiy = phix + 90. * CLHEP::deg;
621  string rotstr = idName + to_string(abs(dohmList[i]) - 1.);
622  dohmRotation = DDRotation(DDName(rotstr, idNameSpace));
623  if (!dohmRotation) {
624  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: Creating a new "
625  << "rotation: " << rotstr << "\t" << theta << ", " << phix / CLHEP::deg << ", " << theta
626  << ", " << phiy / CLHEP::deg << ", 0, 0";
627  dohmRotation = DDrot(DDName(rotstr, idNameSpace), theta, phix, theta, phiy, 0., 0.);
628  }
629  }
630 
631  string dohmName;
632  int dohmReplica = 0;
633  double dohmZ = 0.;
634 
635  if (dohmList[i] < 0.) {
636  // Place a Auxiliary DOHM
637  dohmName = dohmAuxName;
638  dohmZ = dohmCarrierDz - 0.5 * dohmAuxL - dohmtoMF;
639  primReplica++;
640  dohmReplica = primReplica;
641 
642  } else {
643  // Place a Primary DOHM
644  dohmName = dohmPrimName;
645  dohmZ = dohmCarrierDz - 0.5 * dohmPrimL - dohmtoMF;
646  auxReplica++;
647  dohmReplica = auxReplica;
648  }
649 
650  DDName dohm(DDSplit(dohmName).first, DDSplit(dohmName).second);
651  DDTranslation dohmTrasl(dohmR * cos(phi), dohmR * sin(phi), dohmZ);
652  cpv.position(dohm, dohmCarrier, dohmReplica, dohmTrasl, dohmRotation);
653  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << dohm.name() << " replica " << dohmReplica << " positioned in "
654  << dohmCarrier.name() << " at " << dohmTrasl << " with " << dohmRotation;
655  }
656 
657  cpv.position(dohmCarrier, parent(), dohmCarrierReplica, tran, rotation);
658  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << dohmCarrier.name() << " positioned in " << parent().name()
659  << " at " << tran << " with " << rotation;
660  }
661 
663 
664  for (int j = 0; j < 4; j++) {
666  DDMaterial pillarMat(matname);
667  vector<double> pillarZ;
668  vector<double> pillarPhi;
669  double pillarDz = 0, pillarDPhi = 0, pillarRin = 0, pillarRout = 0;
670 
671  switch (j) {
672  case 0:
673  name = idName + "FWIntPillar";
674  pillarZ = fwIntPillarZ;
675  pillarPhi = fwIntPillarPhi;
676  pillarRin = MFRingInR;
677  pillarRout = MFRingInR + MFRingT;
678  pillarDz = fwIntPillarDz;
679  pillarDPhi = fwIntPillarDPhi;
680  break;
681  case 1:
682  name = idName + "BWIntPillar";
683  pillarZ = bwIntPillarZ;
684  pillarPhi = bwIntPillarPhi;
685  pillarRin = MFRingInR;
686  pillarRout = MFRingInR + MFRingT;
687  pillarDz = bwIntPillarDz;
688  pillarDPhi = bwIntPillarDPhi;
689  break;
690  case 2:
691  name = idName + "FWExtPillar";
692  pillarZ = fwExtPillarZ;
693  pillarPhi = fwExtPillarPhi;
694  pillarRin = MFRingOutR - MFRingT;
695  pillarRout = MFRingOutR;
696  pillarDz = fwExtPillarDz;
697  pillarDPhi = fwExtPillarDPhi;
698  break;
699  case 3:
700  name = idName + "BWExtPillar";
701  pillarZ = bwExtPillarZ;
702  pillarPhi = bwExtPillarPhi;
703  pillarRin = MFRingOutR - MFRingT;
704  pillarRout = MFRingOutR;
705  pillarDz = bwExtPillarDz;
706  pillarDPhi = bwExtPillarDPhi;
707  break;
708  }
709 
710  solid =
711  DDSolidFactory::tubs(DDName(name, idNameSpace), pillarDz, pillarRin, pillarRout, -pillarDPhi, 2. * pillarDPhi);
712 
713  DDLogicalPart Pillar(name, DDMaterial(pillarMat), solid);
714 
715  LogDebug("TIBGeom") << "DDTIBLayerAlgo test: " << DDName(name, idNameSpace) << " Tubs made of " << pillarMat
716  << " from " << -pillarDPhi << " to " << pillarDPhi << " with Rin " << pillarRin << " Rout "
717  << pillarRout << " ZHalf " << pillarDz;
718 
719  DDTranslation pillarTran;
720  DDRotation pillarRota;
721  int pillarReplica = 0;
722  for (unsigned int i = 0; i < pillarZ.size(); i++) {
723  if (pillarPhi[i] > 0.) {
724  pillarTran = DDTranslation(0., 0., pillarZ[i]);
725  pillarRota = DDanonymousRot(unique_ptr<DDRotationMatrix>(DDcreateRotationMatrix(
726  90. * CLHEP::deg, pillarPhi[i], 90. * CLHEP::deg, 90. * CLHEP::deg + pillarPhi[i], 0., 0.)));
727 
728  cpv.position(Pillar, parent(), i, pillarTran, pillarRota);
729  LogDebug("TIBGeom") << "DDTIBLayerAlgo test " << Pillar.name() << " positioned in " << parent().name() << " at "
730  << pillarTran << " with " << pillarRota << " copy number " << pillarReplica;
731 
732  pillarReplica++;
733  }
734  }
735  }
736 }

References funct::abs(), bwExtPillarDPhi, bwExtPillarDz, bwExtPillarPhi, bwExtPillarZ, bwIntPillarDPhi, bwIntPillarDz, bwIntPillarPhi, bwIntPillarZ, centMat, centRing1par, centRing2par, funct::cos(), cylinderInR, cylinderMat, cylinderT, DDanonymousRot(), DDcreateRotationMatrix(), DDBase< N, C >::ddname(), DDrot(), DDSplit(), detectorLo, detectorTilt, detectorUp, dohmAuxL, dohmAuxName, dohmCarrierMaterial, dohmCarrierPhiOff, dohmListBW, dohmListFW, dohmPrimL, dohmPrimName, dohmtoMF, PVValHelper::dz, fillerDz, fillerMat, dqmdumpme::first, fwExtPillarDPhi, fwExtPillarDz, fwExtPillarPhi, fwExtPillarZ, fwIntPillarDPhi, fwIntPillarDz, fwIntPillarPhi, fwIntPillarZ, genMat, mps_fire::i, versionedElectronIDProducer_cfi::idName, idNameSpace, createfilelist::int, dqmiolumiharvest::j, layerL, LogDebug, MFExtRingMat, MFIntRingMat, MFRingDz, MFRingInR, MFRingOutR, MFRingT, dqmiodumpmetadata::n, Skims_PA_cff::name, DDName::name(), DDBase< N, C >::name(), class-composition::parent, phi, pillarMaterial, DDCompactView::position(), radiusLo, radiusUp, ribMat, ribPhi, ribW, idealTransformation::rotation, edm::second(), funct::sin(), stringsLo, stringsUp, supportT, theta(), DDSolidFactory::tubs(), and ApeEstimator_cff::width.

◆ initialize()

void DDTIBLayerAlgo::initialize ( const DDNumericArguments nArgs,
const DDVectorArguments vArgs,
const DDMapArguments mArgs,
const DDStringArguments sArgs,
const DDStringVectorArguments vsArgs 
)
override

Definition at line 121 of file DDTIBLayerAlgo.cc.

125  {
127  genMat = sArgs["GeneralMaterial"];
128  DDName parentName = parent().name();
129  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: Parent " << parentName << " NameSpace " << idNameSpace
130  << " General Material " << genMat;
131 
132  detectorTilt = nArgs["DetectorTilt"];
133  layerL = nArgs["LayerL"];
134 
135  radiusLo = nArgs["RadiusLo"];
136  stringsLo = int(nArgs["StringsLo"]);
137  detectorLo = sArgs["StringDetLoName"];
138  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: Lower layer Radius " << radiusLo << " Number " << stringsLo
139  << " String " << detectorLo;
140 
141  radiusUp = nArgs["RadiusUp"];
142  stringsUp = int(nArgs["StringsUp"]);
143  detectorUp = sArgs["StringDetUpName"];
144  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: Upper layer Radius " << radiusUp << " Number " << stringsUp
145  << " String " << detectorUp;
146 
147  cylinderT = nArgs["CylinderThickness"];
148  cylinderInR = nArgs["CylinderInnerRadius"];
149  cylinderMat = sArgs["CylinderMaterial"];
150  MFRingInR = nArgs["MFRingInnerRadius"];
151  MFRingOutR = nArgs["MFRingOuterRadius"];
152  MFRingT = nArgs["MFRingThickness"];
153  MFRingDz = nArgs["MFRingDeltaz"];
154  MFIntRingMat = sArgs["MFIntRingMaterial"];
155  MFExtRingMat = sArgs["MFExtRingMaterial"];
156 
157  supportT = nArgs["SupportThickness"];
158 
159  centMat = sArgs["CentRingMaterial"];
160  centRing1par = vArgs["CentRing1"];
161  centRing2par = vArgs["CentRing2"];
162 
163  fillerMat = sArgs["FillerMaterial"];
164  fillerDz = nArgs["FillerDeltaz"];
165 
166  ribMat = sArgs["RibMaterial"];
167  ribW = vArgs["RibWidth"];
168  ribPhi = vArgs["RibPhi"];
169  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: Cylinder Material/"
170  << "thickness " << cylinderMat << " " << cylinderT << " Rib Material " << ribMat << " at "
171  << ribW.size() << " positions with width/phi";
172 
173  for (unsigned int i = 0; i < ribW.size(); i++)
174  LogDebug("TIBGeom") << "\tribW[" << i << "] = " << ribW[i] << "\tribPhi[" << i << "] = " << ribPhi[i] / CLHEP::deg;
175 
176  dohmCarrierPhiOff = nArgs["DOHMCarrierPhiOffset"];
177 
178  dohmtoMF = nArgs["DOHMtoMFDist"];
179 
180  dohmPrimName = sArgs["StringDOHMPrimName"];
181  dohmAuxName = sArgs["StringDOHMAuxName"];
182 
183  dohmCarrierMaterial = sArgs["DOHMCarrierMaterial"];
184  dohmCableMaterial = sArgs["DOHMCableMaterial"];
185  dohmPrimL = nArgs["DOHMPRIMLength"];
186  dohmPrimMaterial = sArgs["DOHMPRIMMaterial"];
187  dohmAuxL = nArgs["DOHMAUXLength"];
188  dohmAuxMaterial = sArgs["DOHMAUXMaterial"];
189  dohmListFW = vArgs["DOHMListFW"];
190  dohmListBW = vArgs["DOHMListBW"];
191  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: DOHM Primary "
192  << " Material " << dohmPrimMaterial << " Length " << dohmPrimL;
193  LogDebug("TIBGeom") << "DDTIBLayerAlgo debug: DOHM Aux "
194  << " Material " << dohmAuxMaterial << " Length " << dohmAuxL;
195  for (double i : dohmListFW) {
196  if (i > 0.)
197  LogDebug("TIBGeom") << "DOHM Primary at FW Position " << i;
198  if (i < 0.)
199  LogDebug("TIBGeom") << "DOHM Aux at FW Position " << -i;
200  }
201  for (double i : dohmListBW) {
202  if (i > 0.)
203  LogDebug("TIBGeom") << "DOHM Primary at BW Position " << i;
204  if (i < 0.)
205  LogDebug("TIBGeom") << "DOHM Aux at BW Position " << -i;
206  }
207 
208  //Pillar Material
209  pillarMaterial = sArgs["PillarMaterial"];
210 
211  // Internal Pillar Parameters
212  fwIntPillarDz = nArgs["FWIntPillarDz"];
213  fwIntPillarDPhi = nArgs["FWIntPillarDPhi"];
214  fwIntPillarZ = vArgs["FWIntPillarZ"];
215  fwIntPillarPhi = vArgs["FWIntPillarPhi"];
216  bwIntPillarDz = nArgs["BWIntPillarDz"];
217  bwIntPillarDPhi = nArgs["BWIntPillarDPhi"];
218  bwIntPillarZ = vArgs["BWIntPillarZ"];
219  bwIntPillarPhi = vArgs["BWIntPillarPhi"];
220  LogDebug("TIBGeom") << "FW Internal Pillar [Dz, DPhi] " << fwIntPillarDz << ", " << fwIntPillarDPhi;
221  for (unsigned int i = 0; i < fwIntPillarZ.size(); i++) {
222  if (fwIntPillarPhi[i] > 0.) {
223  LogDebug("TIBGeom") << " at positions [z, phi] " << fwIntPillarZ[i] << " " << fwIntPillarPhi[i];
224  }
225  }
226  LogDebug("TIBGeom") << "BW Internal Pillar [Dz, DPhi] " << bwIntPillarDz << ", " << bwIntPillarDPhi;
227  for (unsigned int i = 0; i < bwIntPillarZ.size(); i++) {
228  if (bwIntPillarPhi[i] > 0.) {
229  LogDebug("TIBGeom") << " at positions [z, phi] " << bwIntPillarZ[i] << " " << bwIntPillarPhi[i];
230  }
231  }
232 
233  // External Pillar Parameters
234  fwExtPillarDz = nArgs["FWExtPillarDz"];
235  fwExtPillarDPhi = nArgs["FWExtPillarDPhi"];
236  fwExtPillarZ = vArgs["FWExtPillarZ"];
237  fwExtPillarPhi = vArgs["FWExtPillarPhi"];
238  bwExtPillarDz = nArgs["BWExtPillarDz"];
239  bwExtPillarDPhi = nArgs["BWExtPillarDPhi"];
240  bwExtPillarZ = vArgs["BWExtPillarZ"];
241  bwExtPillarPhi = vArgs["BWExtPillarPhi"];
242  LogDebug("TIBGeom") << "FW External Pillar [Dz, DPhi] " << fwExtPillarDz << ", " << fwExtPillarDPhi;
243  for (unsigned int i = 0; i < fwExtPillarZ.size(); i++) {
244  if (fwExtPillarPhi[i] > 0.) {
245  LogDebug("TIBGeom") << " at positions [z, phi] " << fwExtPillarZ[i] << " " << fwExtPillarPhi[i];
246  }
247  }
248  LogDebug("TIBGeom") << "BW External Pillar [Dz, DPhi] " << bwExtPillarDz << ", " << bwExtPillarDPhi;
249  for (unsigned int i = 0; i < bwExtPillarZ.size(); i++) {
250  if (bwExtPillarPhi[i] > 0.) {
251  LogDebug("TIBGeom") << " at positions [z, phi] " << bwExtPillarZ[i] << " " << bwExtPillarPhi[i];
252  }
253  }
254 }

References bwExtPillarDPhi, bwExtPillarDz, bwExtPillarPhi, bwExtPillarZ, bwIntPillarDPhi, bwIntPillarDz, bwIntPillarPhi, bwIntPillarZ, centMat, centRing1par, centRing2par, cylinderInR, cylinderMat, cylinderT, detectorLo, detectorTilt, detectorUp, dohmAuxL, dohmAuxMaterial, dohmAuxName, dohmCableMaterial, dohmCarrierMaterial, dohmCarrierPhiOff, dohmListBW, dohmListFW, dohmPrimL, dohmPrimMaterial, dohmPrimName, dohmtoMF, fillerDz, fillerMat, fwExtPillarDPhi, fwExtPillarDz, fwExtPillarPhi, fwExtPillarZ, fwIntPillarDPhi, fwIntPillarDz, fwIntPillarPhi, fwIntPillarZ, genMat, mps_fire::i, idNameSpace, createfilelist::int, layerL, LogDebug, MFExtRingMat, MFIntRingMat, MFRingDz, MFRingInR, MFRingOutR, MFRingT, DDCurrentNamespace::ns(), class-composition::parent, pillarMaterial, radiusLo, radiusUp, ribMat, ribPhi, ribW, stringsLo, stringsUp, and supportT.

Member Data Documentation

◆ bwExtPillarDPhi

double DDTIBLayerAlgo::bwExtPillarDPhi
private

Definition at line 110 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwExtPillarDz

double DDTIBLayerAlgo::bwExtPillarDz
private

Definition at line 109 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwExtPillarPhi

vector<double> DDTIBLayerAlgo::bwExtPillarPhi
private

Definition at line 112 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwExtPillarZ

vector<double> DDTIBLayerAlgo::bwExtPillarZ
private

Definition at line 111 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwIntPillarDPhi

double DDTIBLayerAlgo::bwIntPillarDPhi
private

Definition at line 101 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwIntPillarDz

double DDTIBLayerAlgo::bwIntPillarDz
private

Definition at line 100 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwIntPillarPhi

vector<double> DDTIBLayerAlgo::bwIntPillarPhi
private

Definition at line 103 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ bwIntPillarZ

vector<double> DDTIBLayerAlgo::bwIntPillarZ
private

Definition at line 102 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ centMat

string DDTIBLayerAlgo::centMat
private

Definition at line 68 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ centRing1par

vector<double> DDTIBLayerAlgo::centRing1par
private

Definition at line 69 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ centRing2par

vector<double> DDTIBLayerAlgo::centRing2par
private

Definition at line 70 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ cylinderInR

double DDTIBLayerAlgo::cylinderInR
private

Definition at line 57 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ cylinderMat

string DDTIBLayerAlgo::cylinderMat
private

Definition at line 58 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ cylinderT

double DDTIBLayerAlgo::cylinderT
private

Definition at line 56 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ detectorLo

string DDTIBLayerAlgo::detectorLo
private

Definition at line 49 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ detectorTilt

double DDTIBLayerAlgo::detectorTilt
private

Definition at line 43 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ detectorUp

string DDTIBLayerAlgo::detectorUp
private

Definition at line 54 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmAuxL

double DDTIBLayerAlgo::dohmAuxL
private

Definition at line 91 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmAuxMaterial

string DDTIBLayerAlgo::dohmAuxMaterial
private

Definition at line 92 of file DDTIBLayerAlgo.cc.

Referenced by initialize().

◆ dohmAuxName

string DDTIBLayerAlgo::dohmAuxName
private

Definition at line 85 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmCableMaterial

string DDTIBLayerAlgo::dohmCableMaterial
private

Definition at line 88 of file DDTIBLayerAlgo.cc.

Referenced by initialize().

◆ dohmCarrierMaterial

string DDTIBLayerAlgo::dohmCarrierMaterial
private

Definition at line 87 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmCarrierPhiOff

double DDTIBLayerAlgo::dohmCarrierPhiOff
private

Definition at line 83 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmListBW

vector<double> DDTIBLayerAlgo::dohmListBW
private

Definition at line 80 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmListFW

vector<double> DDTIBLayerAlgo::dohmListFW
private

Definition at line 79 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmPrimL

double DDTIBLayerAlgo::dohmPrimL
private

Definition at line 89 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmPrimMaterial

string DDTIBLayerAlgo::dohmPrimMaterial
private

Definition at line 90 of file DDTIBLayerAlgo.cc.

Referenced by initialize().

◆ dohmPrimName

string DDTIBLayerAlgo::dohmPrimName
private

Definition at line 84 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ dohmtoMF

double DDTIBLayerAlgo::dohmtoMF
private

Definition at line 82 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fillerDz

double DDTIBLayerAlgo::fillerDz
private

Definition at line 73 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fillerMat

string DDTIBLayerAlgo::fillerMat
private

Definition at line 72 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwExtPillarDPhi

double DDTIBLayerAlgo::fwExtPillarDPhi
private

Definition at line 106 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwExtPillarDz

double DDTIBLayerAlgo::fwExtPillarDz
private

Definition at line 105 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwExtPillarPhi

vector<double> DDTIBLayerAlgo::fwExtPillarPhi
private

Definition at line 108 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwExtPillarZ

vector<double> DDTIBLayerAlgo::fwExtPillarZ
private

Definition at line 107 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwIntPillarDPhi

double DDTIBLayerAlgo::fwIntPillarDPhi
private

Definition at line 97 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwIntPillarDz

double DDTIBLayerAlgo::fwIntPillarDz
private

Definition at line 96 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwIntPillarPhi

vector<double> DDTIBLayerAlgo::fwIntPillarPhi
private

Definition at line 99 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ fwIntPillarZ

vector<double> DDTIBLayerAlgo::fwIntPillarZ
private

Definition at line 98 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ genMat

string DDTIBLayerAlgo::genMat
private

Definition at line 42 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ idNameSpace

string DDTIBLayerAlgo::idNameSpace
private

Definition at line 41 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ layerL

double DDTIBLayerAlgo::layerL
private

Definition at line 44 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFExtRingMat

string DDTIBLayerAlgo::MFExtRingMat
private

Definition at line 64 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFIntRingMat

string DDTIBLayerAlgo::MFIntRingMat
private

Definition at line 63 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFRingDz

double DDTIBLayerAlgo::MFRingDz
private

Definition at line 62 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFRingInR

double DDTIBLayerAlgo::MFRingInR
private

Definition at line 59 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFRingOutR

double DDTIBLayerAlgo::MFRingOutR
private

Definition at line 60 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ MFRingT

double DDTIBLayerAlgo::MFRingT
private

Definition at line 61 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ phioffLo

double DDTIBLayerAlgo::phioffLo
private

Definition at line 47 of file DDTIBLayerAlgo.cc.

◆ phioffUp

double DDTIBLayerAlgo::phioffUp
private

Definition at line 52 of file DDTIBLayerAlgo.cc.

◆ pillarMaterial

string DDTIBLayerAlgo::pillarMaterial
private

Definition at line 94 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ radiusLo

double DDTIBLayerAlgo::radiusLo
private

Definition at line 46 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ radiusUp

double DDTIBLayerAlgo::radiusUp
private

Definition at line 51 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ ribMat

string DDTIBLayerAlgo::ribMat
private

Definition at line 75 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ ribPhi

vector<double> DDTIBLayerAlgo::ribPhi
private

Definition at line 77 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ ribW

vector<double> DDTIBLayerAlgo::ribW
private

Definition at line 76 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ stringsLo

int DDTIBLayerAlgo::stringsLo
private

Definition at line 48 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ stringsUp

int DDTIBLayerAlgo::stringsUp
private

Definition at line 53 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

◆ supportT

double DDTIBLayerAlgo::supportT
private

Definition at line 66 of file DDTIBLayerAlgo.cc.

Referenced by execute(), and initialize().

DDTIBLayerAlgo::bwIntPillarZ
vector< double > bwIntPillarZ
Definition: DDTIBLayerAlgo.cc:102
ApeEstimator_cff.width
width
Definition: ApeEstimator_cff.py:24
DDTIBLayerAlgo::dohmCarrierMaterial
string dohmCarrierMaterial
Definition: DDTIBLayerAlgo.cc:87
DDTIBLayerAlgo::bwIntPillarPhi
vector< double > bwIntPillarPhi
Definition: DDTIBLayerAlgo.cc:103
mps_fire.i
i
Definition: mps_fire.py:428
DDTIBLayerAlgo::bwExtPillarDz
double bwExtPillarDz
Definition: DDTIBLayerAlgo.cc:109
DDTIBLayerAlgo::pillarMaterial
string pillarMaterial
Definition: DDTIBLayerAlgo.cc:94
dqmiodumpmetadata.n
n
Definition: dqmiodumpmetadata.py:28
DDrot
DDRotation DDrot(const DDName &name, std::unique_ptr< DDRotationMatrix > rot)
Definition of a uniquely identifiable rotation matrix named by DDName name.
Definition: DDRotation.cc:67
DDTIBLayerAlgo::dohmListBW
vector< double > dohmListBW
Definition: DDTIBLayerAlgo.cc:80
DDName
DDName is used to identify DDD entities uniquely.
Definition: DDName.h:15
DDTIBLayerAlgo::dohmAuxName
string dohmAuxName
Definition: DDTIBLayerAlgo.cc:85
DDTIBLayerAlgo::ribPhi
vector< double > ribPhi
Definition: DDTIBLayerAlgo.cc:77
DDTIBLayerAlgo::genMat
string genMat
Definition: DDTIBLayerAlgo.cc:42
DDTIBLayerAlgo::bwIntPillarDz
double bwIntPillarDz
Definition: DDTIBLayerAlgo.cc:100
DDTIBLayerAlgo::dohmPrimName
string dohmPrimName
Definition: DDTIBLayerAlgo.cc:84
edm::second
U second(std::pair< T, U > const &p)
Definition: ParameterSet.cc:222
DDTIBLayerAlgo::dohmAuxL
double dohmAuxL
Definition: DDTIBLayerAlgo.cc:91
DDTIBLayerAlgo::stringsLo
int stringsLo
Definition: DDTIBLayerAlgo.cc:48
versionedElectronIDProducer_cfi.idName
idName
Definition: versionedElectronIDProducer_cfi.py:11
DDTIBLayerAlgo::detectorLo
string detectorLo
Definition: DDTIBLayerAlgo.cc:49
DDTIBLayerAlgo::cylinderInR
double cylinderInR
Definition: DDTIBLayerAlgo.cc:57
DDTIBLayerAlgo::bwExtPillarZ
vector< double > bwExtPillarZ
Definition: DDTIBLayerAlgo.cc:111
dqmdumpme.first
first
Definition: dqmdumpme.py:55
DDTIBLayerAlgo::bwIntPillarDPhi
double bwIntPillarDPhi
Definition: DDTIBLayerAlgo.cc:101
DDTIBLayerAlgo::stringsUp
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Definition: DDTIBLayerAlgo.cc:53
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Definition: DDTIBLayerAlgo.cc:41
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Definition: Sin.h:22
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Definition: DDTIBLayerAlgo.cc:108
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DDMaterial is used to define and access material information.
Definition: DDMaterial.h:45
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Definition: DDTIBLayerAlgo.cc:51
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Definition: DDTIBLayerAlgo.cc:99
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Definition: Cos.h:22
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Definition: DDTranslation.h:7
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Definition: DDTIBLayerAlgo.cc:63
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Definition: DDTIBLayerAlgo.cc:90
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Definition: DDTIBLayerAlgo.cc:61
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Definition: DDSolid.cc:653
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Definition: Basic3DVectorLD.h:150
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Definition: DDTIBLayerAlgo.cc:69
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Definition: DDTIBLayerAlgo.cc:112
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Definition: DDTIBLayerAlgo.cc:79
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Definition: DDTIBLayerAlgo.cc:89
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Definition: DDTIBLayerAlgo.cc:56
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Definition: DDTIBLayerAlgo.cc:64
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Definition: MessageLogger.h:223
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Definition: DDTIBLayerAlgo.cc:68
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Definition: idealTransformation.py:1
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Definition: DDBase.h:61
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Definition: DDTIBLayerAlgo.cc:66
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A DDLogicalPart aggregates information concerning material, solid and sensitveness ....
Definition: DDLogicalPart.h:93
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Definition: createfilelist.py:10
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Definition: DDTIBLayerAlgo.cc:83
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Definition: DDTIBLayerAlgo.cc:46
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const std::string & name() const
Returns the name.
Definition: DDName.cc:41
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Definition: DDTIBLayerAlgo.cc:88
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Definition: DDTIBLayerAlgo.cc:110
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Definition: DDTIBLayerAlgo.cc:98
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Definition: DDTIBLayerAlgo.cc:73
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Definition: DDTIBLayerAlgo.cc:44
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Definition: DDTIBLayerAlgo.cc:60
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Definition: DDTIBLayerAlgo.cc:105
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Definition: DDTIBLayerAlgo.cc:97
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Definition: DDTIBLayerAlgo.cc:92
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Definition: PVValidationHelpers.h:50
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Definition: DDTIBLayerAlgo.cc:62
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Definition: DDCurrentNamespace.cc:3
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Definition: DDTIBLayerAlgo.cc:72
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Definition: DDTIBLayerAlgo.cc:70
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Definition: DDTIBLayerAlgo.cc:96
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DDRotation DDanonymousRot(std::unique_ptr< DDRotationMatrix > rot)
Defines a anonymous rotation or rotation-reflection matrix.
Definition: DDRotation.cc:143
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Definition: DDTIBLayerAlgo.cc:82
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Definition: DDTIBLayerAlgo.cc:75
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Definition: Skims_PA_cff.py:17
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A DDSolid represents the shape of a part.
Definition: DDSolid.h:39
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Definition: DDTIBLayerAlgo.cc:43
DDRotation
Represents a uniquely identifyable rotation matrix.
Definition: DDTransform.h:57
DDcreateRotationMatrix
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create a new DDRotationMatrix in the GEANT3 style.
Definition: DDRotation.cc:120
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Abs< T >::type abs(const T &t)
Definition: Abs.h:22
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Definition: dqmiolumiharvest.py:66
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Definition: DDTIBLayerAlgo.cc:58
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Definition: DDTIBLayerAlgo.cc:59
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Definition: DDTIBLayerAlgo.cc:106
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Definition: DDTIBLayerAlgo.cc:54
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Definition: DDTIBLayerAlgo.cc:107
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Definition: DDTIBLayerAlgo.cc:76
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Definition: class-composition.py:88
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split into (name,namespace), separator = ':'
Definition: DDSplit.cc:3
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void position(const DDLogicalPart &self, const DDLogicalPart &parent, const std::string &copyno, const DDTranslation &trans, const DDRotation &rot, const DDDivision *div=nullptr)
Definition: DDCompactView.cc:76
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Definition: DDEcalEndcapAlgo.cc:18