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HGCalCell Class Reference

#include <HGCalCell.h>

Public Member Functions

std::pair< int32_t, int32_t > cellUV2Cell (int32_t u, int32_t v, int32_t placementIndex, int32_t type)
 
std::pair< double, double > cellUV2XY1 (int32_t u, int32_t v, int32_t placementIndex, int32_t type)
 
std::pair< double, double > cellUV2XY2 (int32_t u, int32_t v, int32_t placementIndex, int32_t type)
 
 HGCalCell (double waferSize, int32_t nFine, int32_t nCoarse)
 

Static Public Member Functions

static std::pair< int32_t, int32_t > cellOrient (int32_t placementIndex)
 
static int32_t cellPlacementIndex (int32_t iz, int32_t frontBack, int32_t orient)
 
static std::pair< int32_t, int32_t > cellType (int32_t u, int32_t v, int32_t ncell, int32_t placementIndex)
 
static std::pair< int32_t, int32_t > cellType (int32_t u, int32_t v, int32_t ncell, int32_t placementIndex, int32_t partialType)
 

Static Public Attributes

static constexpr int32_t bottomCell = 24
 
static constexpr int32_t bottomCorner = 11
 
static constexpr int32_t bottomLeftCorner = 12
 
static constexpr int32_t bottomLeftEdge = 1
 
static constexpr int32_t bottomRightCorner = 16
 
static constexpr int32_t bottomRightEdge = 6
 
static constexpr int32_t cellPlacementExtra = 6
 
static constexpr int32_t cellPlacementIndex0 = 0
 
static constexpr int32_t cellPlacementIndex1 = 1
 
static constexpr int32_t cellPlacementIndex10 = 10
 
static constexpr int32_t cellPlacementIndex11 = 11
 
static constexpr int32_t cellPlacementIndex2 = 2
 
static constexpr int32_t cellPlacementIndex3 = 3
 
static constexpr int32_t cellPlacementIndex4 = 4
 
static constexpr int32_t cellPlacementIndex5 = 5
 
static constexpr int32_t cellPlacementIndex6 = 6
 
static constexpr int32_t cellPlacementIndex7 = 7
 
static constexpr int32_t cellPlacementIndex8 = 8
 
static constexpr int32_t cellPlacementIndex9 = 9
 
static constexpr int32_t cellPlacementOld = 7
 
static constexpr int32_t cellPlacementTotal = 12
 
static constexpr int32_t centralCell = 0
 
static constexpr int32_t cornerCell = 1
 
static constexpr int32_t extendedCell = 3
 
static constexpr int32_t extendedMBCell = 5
 
static constexpr int32_t fullCell = 0
 
static constexpr int32_t fullWaferCellsCount = 6
 
static constexpr int32_t halfCell = 11
 
static constexpr int32_t halfExtCell = 13
 
static constexpr int32_t halfTrunCell = 12
 
static constexpr int32_t HDPartial0920Cell = 20
 
static constexpr int32_t HDPartial1021Cell = 21
 
static constexpr int32_t LDPartial0007Cell = 16
 
static constexpr int32_t LDPartial0209Cell = 15
 
static constexpr int32_t LDPartial0714Cell = 14
 
static constexpr int32_t LDPartial0815Cell = 17
 
static constexpr int32_t LDPartial1415Cell = 18
 
static constexpr int32_t LDPartial1515Cell = 19
 
static constexpr int32_t leftCell = 21
 
static constexpr int32_t leftEdge = 2
 
static constexpr int32_t partiaclCellsPosOffset = 21
 
static constexpr int32_t partiaclWaferCellsOffset = 11
 
static constexpr int32_t rightCell = 22
 
static constexpr int32_t rightEdge = 5
 
static constexpr int32_t topCell = 23
 
static constexpr int32_t topCorner = 14
 
static constexpr int32_t topLeftCorner = 13
 
static constexpr int32_t topLeftEdge = 3
 
static constexpr int32_t topRightCorner = 15
 
static constexpr int32_t topRightEdge = 4
 
static constexpr int32_t truncatedCell = 2
 
static constexpr int32_t truncatedMBCell = 4
 
static constexpr int32_t undefinedCell = -1
 

Private Attributes

double cellX_ [2]
 
double cellY_ [2]
 
int32_t ncell_ [2]
 
const double sqrt3By2_ = (0.5 * std::sqrt(3.0))
 

Detailed Description

Definition at line 7 of file HGCalCell.h.

Constructor & Destructor Documentation

◆ HGCalCell()

HGCalCell::HGCalCell ( double  waferSize,
int32_t  nFine,
int32_t  nCoarse 
)

Definition at line 9 of file HGCalCell.cc.

References cellX_, cellY_, isotrackApplyRegressor::k, ncell_, and sqrt3By2_.

9  {
10  ncell_[0] = nFine;
11  ncell_[1] = nCoarse;
12  for (int k = 0; k < 2; ++k) {
13  cellX_[k] = waferSize / (3 * ncell_[k]);
14  cellY_[k] = sqrt3By2_ * cellX_[k];
15  }
16 #ifdef EDM_ML_DEBUG
17  edm::LogVerbatim("HGCalGeom") << "HGCalCell initialized with waferSize " << waferSize << " number of cells " << nFine
18  << ":" << nCoarse;
19 #endif
20 }
Log< level::Info, true > LogVerbatim
const double sqrt3By2_
Definition: HGCalCell.h:86
int32_t ncell_[2]
Definition: HGCalCell.h:87
double cellX_[2]
Definition: HGCalCell.h:88
double cellY_[2]
Definition: HGCalCell.h:88

Member Function Documentation

◆ cellOrient()

std::pair< int32_t, int32_t > HGCalCell::cellOrient ( int32_t  placementIndex)
static

Definition at line 244 of file HGCalCell.cc.

References cellPlacementExtra, and hgcalPerformanceValidation::orient.

Referenced by algorithm(), and DDHGCalWaferPartialRotated::execute().

244  {
245  int32_t orient = (placementIndex >= HGCalCell::cellPlacementExtra) ? (placementIndex - HGCalCell::cellPlacementExtra)
246  : placementIndex;
247  int32_t frontBackZside = (placementIndex >= HGCalCell::cellPlacementExtra) ? 1 : -1;
248  return std::make_pair(orient, frontBackZside);
249 }
static constexpr int32_t cellPlacementExtra
Definition: HGCalCell.h:24

◆ cellPlacementIndex()

int HGCalCell::cellPlacementIndex ( int32_t  iz,
int32_t  frontBack,
int32_t  orient 
)
static

◆ cellType() [1/2]

std::pair< int32_t, int32_t > HGCalCell::cellType ( int32_t  u,
int32_t  v,
int32_t  ncell,
int32_t  placementIndex 
)
static

Definition at line 251 of file HGCalCell.cc.

References bottomCorner, bottomLeftCorner, bottomLeftEdge, bottomRightCorner, bottomRightEdge, cellPlacementExtra, cellPlacementIndex0, cellPlacementIndex1, cellPlacementIndex10, cellPlacementIndex2, cellPlacementIndex3, cellPlacementIndex4, cellPlacementIndex6, cellPlacementIndex7, cellPlacementIndex8, cellPlacementIndex9, centralCell, cornerCell, extendedCell, extendedMBCell, fullCell, leftEdge, rightEdge, topCorner, topLeftCorner, topLeftEdge, topRightCorner, topRightEdge, truncatedCell, truncatedMBCell, and findQualityFiles::v.

Referenced by HGCalDDDConstants::cellType(), and cellType().

251  {
252  int cell(0), cellx(0), cellt(HGCalCell::fullCell);
253  if (placementIndex >= HGCalCell::cellPlacementExtra) {
254  const std::vector<int> itype0 = {HGCalCell::centralCell,
267  const std::vector<int> itype1 = {HGCalCell::centralCell,
280  const std::vector<int> itype2 = {HGCalCell::centralCell,
293  const std::vector<int> itype3 = {HGCalCell::centralCell,
306  const std::vector<int> itype4 = {HGCalCell::centralCell,
319  const std::vector<int> itype5 = {HGCalCell::centralCell,
332  if (u == 0 && v == 0) {
333  cellx = 1;
334  cellt = HGCalCell::cornerCell;
335  } else if (u == 0 && (v - u) == (ncell - 1)) {
336  cellx = 2;
337  cellt = HGCalCell::cornerCell;
338  } else if ((v - u) == (ncell - 1) && v == (2 * ncell - 1)) {
339  cellx = 3;
340  cellt = HGCalCell::cornerCell;
341  } else if (u == (2 * ncell - 1) && v == (2 * ncell - 1)) {
342  cellx = 4;
343  cellt = HGCalCell::cornerCell;
344  } else if (u == (2 * ncell - 1) && (u - v) == ncell) {
345  cellx = 5;
346  cellt = HGCalCell::cornerCell;
347  } else if ((u - v) == ncell && v == 0) {
348  cellx = 6;
349  cellt = HGCalCell::cornerCell;
350  } else if (u == 0) {
351  cellx = 7;
352  cellt = HGCalCell::truncatedCell;
353  if (v == 1) {
354  cellx = 1;
356  } else if (v == ncell - 2) {
357  cellx = 2;
359  }
360  } else if ((v - u) == (ncell - 1)) {
361  cellx = 8;
362  cellt = HGCalCell::extendedCell;
363  if (v == ncell) {
364  cellx = 2;
366  } else if (v == 2 * ncell - 2) {
367  cellx = 3;
369  }
370  } else if (v == (2 * ncell - 1)) {
371  cellx = 9;
372  cellt = HGCalCell::truncatedCell;
373  if (u == ncell + 1) {
374  cellx = 3;
376  } else if (u == 2 * ncell - 2) {
377  cellx = 4;
379  }
380  } else if (u == (2 * ncell - 1)) {
381  cellx = 10;
382  cellt = HGCalCell::extendedCell;
383  if (v == 2 * ncell - 2) {
384  cellx = 4;
386  } else if (v == ncell + 1) {
387  cellx = 5;
389  }
390  } else if ((u - v) == ncell) {
391  cellx = 11;
392  cellt = HGCalCell::truncatedCell;
393  if (u == 2 * ncell - 2) {
394  cellx = 5;
396  } else if (u == ncell + 1) {
397  cellx = 6;
399  }
400  } else if (v == 0) {
401  cellx = 12;
402  cellt = HGCalCell::extendedCell;
403  if (u == ncell - 1) {
404  cellx = 6;
406  } else if (u == 1) {
407  cellx = 1;
409  }
410  }
411  switch (placementIndex) {
413  cell = itype0[cellx];
414  break;
416  cell = itype1[cellx];
417  break;
419  cell = itype2[cellx];
420  break;
422  cell = itype3[cellx];
423  break;
425  cell = itype4[cellx];
426  break;
427  default:
428  cell = itype5[cellx];
429  break;
430  }
431  } else {
432  const std::vector<int> itype0 = {HGCalCell::centralCell,
445  const std::vector<int> itype1 = {HGCalCell::centralCell,
458  const std::vector<int> itype2 = {HGCalCell::centralCell,
471  const std::vector<int> itype3 = {HGCalCell::centralCell,
484  const std::vector<int> itype4 = {HGCalCell::centralCell,
497  const std::vector<int> itype5 = {HGCalCell::centralCell,
510  if (u == 0 && v == 0) {
511  cellx = 1;
512  cellt = HGCalCell::cornerCell;
513  } else if (v == 0 && (u - v) == (ncell)) {
514  cellx = 2;
515  cellt = HGCalCell::cornerCell;
516  } else if ((u - v) == (ncell) && u == (2 * ncell - 1)) {
517  cellx = 3;
518  cellt = HGCalCell::cornerCell;
519  } else if (u == (2 * ncell - 1) && v == (2 * ncell - 1)) {
520  cellx = 4;
521  cellt = HGCalCell::cornerCell;
522  } else if (v == (2 * ncell - 1) && (v - u) == (ncell - 1)) {
523  cellx = 5;
524  cellt = HGCalCell::cornerCell;
525  } else if ((v - u) == (ncell - 1) && u == 0) {
526  cellx = 6;
527  cellt = HGCalCell::cornerCell;
528  } else if (v == 0) {
529  cellx = 7;
530  cellt = HGCalCell::extendedCell;
531  if (u == 1) {
532  cellx = 1;
534  } else if (u == ncell - 1) {
535  cellx = 2;
537  }
538  } else if ((u - v) == ncell) {
539  cellx = 8;
540  cellt = HGCalCell::truncatedCell;
541  if (u == 2 * ncell - 2) {
542  cellx = 3;
544  } else if (u == ncell + 1) {
545  cellx = 2;
547  }
548  } else if (u == (2 * ncell - 1)) {
549  cellx = 9;
550  cellt = HGCalCell::extendedCell;
551  if (v == 2 * ncell - 2) {
552  cellx = 4;
554  } else if (v == ncell + 1) {
555  cellx = 3;
557  }
558  } else if (v == (2 * ncell - 1)) {
559  cellx = 10;
560  cellt = HGCalCell::truncatedCell;
561  if (u == ncell + 1) {
562  cellx = 5;
564  } else if (u == 2 * ncell - 2) {
565  cellx = 4;
567  }
568  } else if ((v - u) == (ncell - 1)) {
569  cellx = 11;
570  cellt = HGCalCell::extendedCell;
571  if (v == ncell) {
572  cellx = 6;
574  } else if (v == 2 * ncell - 2) {
575  cellx = 5;
577  }
578  } else if (u == 0) {
579  cellx = 12;
580  cellt = HGCalCell::truncatedCell;
581  if (v == 1) {
582  cellx = 1;
584  } else if (v == ncell - 2) {
585  cellx = 6;
587  }
588  }
589  switch (placementIndex) {
591  cell = itype0[cellx];
592  break;
594  cell = itype1[cellx];
595  break;
597  cell = itype2[cellx];
598  break;
600  cell = itype3[cellx];
601  break;
603  cell = itype4[cellx];
604  break;
605  default:
606  cell = itype5[cellx];
607  break;
608  }
609  }
610  return std::make_pair(cell, cellt);
611 }
static constexpr int32_t fullCell
Definition: HGCalCell.h:28
static constexpr int32_t cellPlacementIndex8
Definition: HGCalCell.h:19
static constexpr int32_t topCorner
Definition: HGCalCell.h:62
static constexpr int32_t extendedMBCell
Definition: HGCalCell.h:33
static constexpr int32_t cellPlacementIndex3
Definition: HGCalCell.h:14
static constexpr int32_t leftEdge
Definition: HGCalCell.h:54
static constexpr int32_t cellPlacementIndex10
Definition: HGCalCell.h:21
static constexpr int32_t truncatedMBCell
Definition: HGCalCell.h:32
static constexpr int32_t cellPlacementIndex0
Definition: HGCalCell.h:11
static constexpr int32_t topLeftCorner
Definition: HGCalCell.h:61
static constexpr int32_t bottomLeftCorner
Definition: HGCalCell.h:60
static constexpr int32_t topRightCorner
Definition: HGCalCell.h:63
static constexpr int32_t bottomRightEdge
Definition: HGCalCell.h:58
static constexpr int32_t cellPlacementIndex9
Definition: HGCalCell.h:20
static constexpr int32_t bottomLeftEdge
Definition: HGCalCell.h:53
static constexpr int32_t cellPlacementIndex7
Definition: HGCalCell.h:18
static constexpr int32_t bottomRightCorner
Definition: HGCalCell.h:64
static constexpr int32_t truncatedCell
Definition: HGCalCell.h:30
static constexpr int32_t centralCell
Definition: HGCalCell.h:52
static constexpr int32_t extendedCell
Definition: HGCalCell.h:31
static constexpr int32_t topRightEdge
Definition: HGCalCell.h:56
static constexpr int32_t rightEdge
Definition: HGCalCell.h:57
static constexpr int32_t bottomCorner
Definition: HGCalCell.h:59
static constexpr int32_t cornerCell
Definition: HGCalCell.h:29
static constexpr int32_t cellPlacementIndex4
Definition: HGCalCell.h:15
static constexpr int32_t cellPlacementIndex1
Definition: HGCalCell.h:12
static constexpr int32_t cellPlacementIndex6
Definition: HGCalCell.h:17
static constexpr int32_t cellPlacementIndex2
Definition: HGCalCell.h:13
static constexpr int32_t topLeftEdge
Definition: HGCalCell.h:55
static constexpr int32_t cellPlacementExtra
Definition: HGCalCell.h:24

◆ cellType() [2/2]

std::pair< int32_t, int32_t > HGCalCell::cellType ( int32_t  u,
int32_t  v,
int32_t  ncell,
int32_t  placementIndex,
int32_t  partialType 
)
static

Definition at line 613 of file HGCalCell.cc.

References bottomCell, cellType(), gather_cfg::cout, extendedCell, halfCell, halfExtCell, halfTrunCell, HDPartial0920Cell, HDPartial1021Cell, LDPartial0007Cell, LDPartial0209Cell, LDPartial0714Cell, LDPartial0815Cell, LDPartial1415Cell, LDPartial1515Cell, leftCell, rightCell, topCell, truncatedCell, findQualityFiles::v, HGCalTypes::WaferHDFive, HGCalTypes::WaferHDLeft, HGCalTypes::WaferHDRight, HGCalTypes::WaferLDFive, HGCalTypes::WaferLDLeft, HGCalTypes::WaferLDRight, HGCalTypes::WaferLDThree, HGCalTypes::WaferPartHDCount, HGCalTypes::WaferPartHDOffset, HGCalTypes::WaferPartLDCount, and HGCalTypes::WaferPartLDOffset.

614  {
615  std::pair<int, int> cell = HGCalCell::cellType(u, v, ncell, placementIndex);
616  int cellx = cell.first;
617  int cellt = cell.second;
618  if ((partialType >= HGCalTypes::WaferPartLDOffset) &&
620  if ((u == 7 && v == 14) || (u == 7 && v == 0)) {
622  if (u == 7 && v == 0) {
623  cellx = HGCalCell::leftCell;
624  } else {
625  cellx = HGCalCell::rightCell;
626  }
627  } else if ((u == 8 && v == 15) || (u == 8 && v == 0)) {
629  if (u == 8 && v == 0) {
630  cellx = HGCalCell::leftCell;
631  } else {
632  cellx = HGCalCell::rightCell;
633  }
634  } else if (u == 2 && v == 9) {
636  } else if (u == 0 && v == 7) {
638  } else if (u == 14 && v == 15) {
640  } else if (u == 15 && v == 15) {
642  } else if (u == 7) {
643  cellt = HGCalCell::extendedCell;
644  cellx = HGCalCell::topCell;
645  } else if (u == 8) {
646  cellt = HGCalCell::truncatedCell;
647  cellx = HGCalCell::bottomCell;
648  } else if ((partialType == HGCalTypes::WaferLDLeft) || (partialType == HGCalTypes::WaferLDRight) ||
649  (partialType == HGCalTypes::WaferLDFive) || (partialType == HGCalTypes::WaferLDThree)) {
650  if (((u == 15 && v == 11) || (u == 7 && v == 7)) &&
651  ((partialType == HGCalTypes::WaferLDLeft) || (partialType == HGCalTypes::WaferLDRight))) {
652  cellt = HGCalCell::halfExtCell;
653  if (partialType == HGCalTypes::WaferLDLeft) {
654  cellx = HGCalCell::leftCell;
655  } else {
656  cellx = HGCalCell::rightCell;
657  }
658  } else if ((u == 7 && v == 11) &&
659  ((partialType == HGCalTypes::WaferLDFive) || (partialType == HGCalTypes::WaferLDThree))) {
660  cellt = HGCalCell::halfExtCell;
661  if (partialType == HGCalTypes::WaferLDFive) {
662  cellx = HGCalCell::leftCell;
663  } else {
664  cellx = HGCalCell::rightCell;
665  }
666  } else if (2 * v - u == 7) {
667  cellt = HGCalCell::halfCell;
668  if (partialType == HGCalTypes::WaferLDLeft) {
669  cellx = HGCalCell::leftCell;
670  } else if (partialType == HGCalTypes::WaferLDRight) {
671  cellx = HGCalCell::rightCell;
672  }
673  } else if (2 * v - u == 15) {
674  if (partialType == HGCalTypes::WaferLDFive) {
675  cellx = HGCalCell::leftCell;
676  } else if (partialType == HGCalTypes::WaferLDThree) {
677  cellx = HGCalCell::rightCell;
678  }
679  cellt = HGCalCell::halfCell;
680  std::cout << u << ":" << v << " 1" << std::endl;
681  }
682  }
683  } else if ((partialType >= HGCalTypes::WaferPartHDOffset) &&
685  if ((u == 9 && v == 20) || (u == 9 && v == 0)) {
687  if (u == 9 && v == 0) {
688  cellx = HGCalCell::leftCell;
689  } else {
690  cellx = HGCalCell::rightCell;
691  }
692  } else if ((u == 10 && v == 21) || (u == 10 && v == 0)) {
694  if (u == 10 && v == 0) {
695  cellx = HGCalCell::leftCell;
696  } else {
697  cellx = HGCalCell::rightCell;
698  }
699  } else if (u == 9) {
700  cellt = HGCalCell::truncatedCell;
701  cellx = HGCalCell::topCell;
702  } else if (u == 10) {
703  cellt = HGCalCell::extendedCell;
704  cellx = HGCalCell::bottomCell;
705  } else if ((partialType == HGCalTypes::WaferHDLeft) || (partialType == HGCalTypes::WaferHDRight) ||
706  (partialType == HGCalTypes::WaferHDFive)) {
707  if ((u == 10 && v == 7) || (u == 10 && v == 14)) {
708  cellt = HGCalCell::halfExtCell;
709  if ((partialType == HGCalTypes::WaferHDLeft) || (partialType == HGCalTypes::WaferHDFive)) {
710  cellx = HGCalCell::leftCell;
711  } else {
712  cellx = HGCalCell::rightCell;
713  }
714  } else if ((u == 0 && v == 2) || (u == 0 && v == 9)) {
715  cellt = HGCalCell::halfTrunCell;
716  if ((partialType == HGCalTypes::WaferHDLeft) || (partialType == HGCalTypes::WaferHDFive)) {
717  cellx = HGCalCell::leftCell;
718  } else {
719  cellx = HGCalCell::rightCell;
720  }
721  } else if (2 * v - u == 4) {
722  cellt = HGCalCell::halfCell;
723  if (partialType == HGCalTypes::WaferHDLeft) {
724  cellx = HGCalCell::leftCell;
725  }
726  } else if (2 * v - u == 18) {
727  cellt = HGCalCell::halfCell;
728  if (partialType == HGCalTypes::WaferHDFive) {
729  cellx = HGCalCell::leftCell;
730  } else if (partialType == HGCalTypes::WaferHDRight) {
731  cellx = HGCalCell::rightCell;
732  }
733  }
734  }
735  }
736  return std::make_pair(cellx, cellt);
737 }
static constexpr int32_t LDPartial0007Cell
Definition: HGCalCell.h:43
static constexpr int32_t WaferPartLDOffset
Definition: HGCalTypes.h:57
static std::pair< int32_t, int32_t > cellType(int32_t u, int32_t v, int32_t ncell, int32_t placementIndex)
Definition: HGCalCell.cc:251
static constexpr int32_t WaferLDThree
Definition: HGCalTypes.h:50
static constexpr int32_t HDPartial1021Cell
Definition: HGCalCell.h:49
static constexpr int32_t HDPartial0920Cell
Definition: HGCalCell.h:48
static constexpr int32_t WaferHDFive
Definition: HGCalTypes.h:55
static constexpr int32_t leftCell
Definition: HGCalCell.h:66
static constexpr int32_t LDPartial0209Cell
Definition: HGCalCell.h:42
static constexpr int32_t WaferHDLeft
Definition: HGCalTypes.h:53
static constexpr int32_t WaferPartLDCount
Definition: HGCalTypes.h:59
static constexpr int32_t topCell
Definition: HGCalCell.h:68
static constexpr int32_t WaferLDRight
Definition: HGCalTypes.h:48
static constexpr int32_t WaferLDFive
Definition: HGCalTypes.h:49
static constexpr int32_t WaferLDLeft
Definition: HGCalTypes.h:47
static constexpr int32_t halfCell
Definition: HGCalCell.h:36
static constexpr int32_t LDPartial0714Cell
Definition: HGCalCell.h:41
static constexpr int32_t LDPartial1515Cell
Definition: HGCalCell.h:46
static constexpr int32_t WaferPartHDOffset
Definition: HGCalTypes.h:58
static constexpr int32_t WaferHDRight
Definition: HGCalTypes.h:54
static constexpr int32_t truncatedCell
Definition: HGCalCell.h:30
static constexpr int32_t halfTrunCell
Definition: HGCalCell.h:37
static constexpr int32_t extendedCell
Definition: HGCalCell.h:31
static constexpr int32_t LDPartial0815Cell
Definition: HGCalCell.h:44
static constexpr int32_t LDPartial1415Cell
Definition: HGCalCell.h:45
static constexpr int32_t halfExtCell
Definition: HGCalCell.h:38
static constexpr int32_t rightCell
Definition: HGCalCell.h:67
static constexpr int32_t bottomCell
Definition: HGCalCell.h:69
static constexpr int32_t WaferPartHDCount
Definition: HGCalTypes.h:60

◆ cellUV2Cell()

std::pair< int, int > HGCalCell::cellUV2Cell ( int32_t  u,
int32_t  v,
int32_t  placementIndex,
int32_t  type 
)

Definition at line 103 of file HGCalCell.cc.

References cellPlacementExtra, cellPlacementIndex0, cellPlacementIndex1, cellPlacementIndex10, cellPlacementIndex2, cellPlacementIndex3, cellPlacementIndex4, cellPlacementIndex6, cellPlacementIndex7, cellPlacementIndex8, cellPlacementIndex9, cornerCell, extendedCell, fullCell, ncell_, truncatedCell, and findQualityFiles::v.

Referenced by algorithm(), and DDHGCalWaferFullRotated::execute().

103  {
104  if (type != 0)
105  type = 1;
106  int cell(0), cellx(0), cellt(HGCalCell::fullCell);
107  if (placementIndex >= HGCalCell::cellPlacementExtra) {
108  const std::vector<int> itype0 = {0, 7, 8, 9, 10, 11, 6, 3, 4, 5, 4, 5, 3};
109  const std::vector<int> itype1 = {0, 0, 1, 2, 3, 4, 5, 0, 1, 2, 0, 1, 2};
110  const std::vector<int> itype2 = {0, 11, 6, 7, 8, 9, 10, 5, 3, 4, 3, 4, 5};
111  const std::vector<int> itype3 = {0, 4, 5, 0, 1, 2, 3, 2, 0, 1, 2, 0, 1};
112  const std::vector<int> itype4 = {0, 9, 10, 11, 6, 7, 8, 4, 5, 3, 5, 3, 4};
113  const std::vector<int> itype5 = {0, 2, 3, 4, 5, 0, 1, 1, 2, 0, 1, 2, 0};
114  if (u == 0 && v == 0) {
115  cellx = 1;
116  cellt = HGCalCell::cornerCell;
117  } else if (u == 0 && (v - u) == (ncell_[type] - 1)) {
118  cellx = 2;
119  cellt = HGCalCell::cornerCell;
120  } else if ((v - u) == (ncell_[type] - 1) && v == (2 * ncell_[type] - 1)) {
121  cellx = 3;
122  cellt = HGCalCell::cornerCell;
123  } else if (u == (2 * ncell_[type] - 1) && v == (2 * ncell_[type] - 1)) {
124  cellx = 4;
125  cellt = HGCalCell::cornerCell;
126  } else if (u == (2 * ncell_[type] - 1) && (u - v) == ncell_[type]) {
127  cellx = 5;
128  cellt = HGCalCell::cornerCell;
129  } else if ((u - v) == ncell_[type] && v == 0) {
130  cellx = 6;
131  cellt = HGCalCell::cornerCell;
132  } else if (u == 0) {
133  cellx = 7;
134  cellt = HGCalCell::truncatedCell;
135  } else if ((v - u) == (ncell_[type] - 1)) {
136  cellx = 10;
137  cellt = HGCalCell::extendedCell;
138  } else if (v == (2 * ncell_[type] - 1)) {
139  cellx = 8;
140  cellt = HGCalCell::truncatedCell;
141  } else if (u == (2 * ncell_[type] - 1)) {
142  cellx = 11;
143  cellt = HGCalCell::extendedCell;
144  } else if ((u - v) == ncell_[type]) {
145  cellx = 9;
146  cellt = HGCalCell::truncatedCell;
147  } else if (v == 0) {
148  cellx = 12;
149  cellt = HGCalCell::extendedCell;
150  }
151  switch (placementIndex) {
153  cell = itype0[cellx];
154  break;
156  cell = itype1[cellx];
157  break;
159  cell = itype2[cellx];
160  break;
162  cell = itype3[cellx];
163  break;
165  cell = itype4[cellx];
166  break;
167  default:
168  cell = itype5[cellx];
169  break;
170  }
171  } else {
172  const std::vector<int> itype0 = {0, 1, 2, 3, 4, 5, 0, 1, 2, 0, 0, 1, 2};
173  const std::vector<int> itype1 = {0, 8, 9, 10, 11, 6, 7, 4, 5, 3, 4, 5, 3};
174  const std::vector<int> itype2 = {0, 3, 4, 5, 0, 1, 2, 2, 0, 1, 1, 2, 0};
175  const std::vector<int> itype3 = {0, 10, 11, 6, 7, 8, 9, 5, 3, 4, 5, 3, 4};
176  const std::vector<int> itype4 = {0, 5, 0, 1, 2, 3, 4, 0, 1, 2, 2, 0, 1};
177  const std::vector<int> itype5 = {0, 6, 7, 8, 9, 10, 11, 3, 4, 5, 3, 4, 5};
178  if (u == 0 && v == 0) {
179  cellx = 1;
180  cellt = HGCalCell::cornerCell;
181  } else if (v == 0 && (u - v) == (ncell_[type])) {
182  cellx = 2;
183  cellt = HGCalCell::cornerCell;
184  } else if ((u - v) == (ncell_[type]) && u == (2 * ncell_[type] - 1)) {
185  cellx = 3;
186  cellt = HGCalCell::cornerCell;
187  } else if (u == (2 * ncell_[type] - 1) && v == (2 * ncell_[type] - 1)) {
188  cellx = 4;
189  cellt = HGCalCell::cornerCell;
190  } else if (v == (2 * ncell_[type] - 1) && (v - u) == (ncell_[type] - 1)) {
191  cellx = 5;
192  cellt = HGCalCell::cornerCell;
193  } else if ((v - u) == (ncell_[type] - 1) && u == 0) {
194  cellx = 6;
195  cellt = HGCalCell::cornerCell;
196  } else if (v == 0) {
197  cellx = 10;
198  cellt = HGCalCell::extendedCell;
199  } else if ((u - v) == ncell_[type]) {
200  cellx = 7;
201  cellt = HGCalCell::truncatedCell;
202  } else if (u == (2 * ncell_[type] - 1)) {
203  cellx = 11;
204  cellt = HGCalCell::extendedCell;
205  } else if (v == (2 * ncell_[type] - 1)) {
206  cellx = 8;
207  cellt = HGCalCell::truncatedCell;
208  } else if ((v - u) == (ncell_[type] - 1)) {
209  cellx = 12;
210  cellt = HGCalCell::extendedCell;
211  } else if (u == 0) {
212  cellx = 9;
213  cellt = HGCalCell::truncatedCell;
214  }
215  switch (placementIndex) {
217  cell = itype0[cellx];
218  break;
220  cell = itype1[cellx];
221  break;
223  cell = itype2[cellx];
224  break;
226  cell = itype3[cellx];
227  break;
229  cell = itype4[cellx];
230  break;
231  default:
232  cell = itype5[cellx];
233  break;
234  }
235  }
236  return std::make_pair(cell, cellt);
237 }
static constexpr int32_t fullCell
Definition: HGCalCell.h:28
static constexpr int32_t cellPlacementIndex8
Definition: HGCalCell.h:19
static constexpr int32_t cellPlacementIndex3
Definition: HGCalCell.h:14
int32_t ncell_[2]
Definition: HGCalCell.h:87
static constexpr int32_t cellPlacementIndex10
Definition: HGCalCell.h:21
static constexpr int32_t cellPlacementIndex0
Definition: HGCalCell.h:11
static constexpr int32_t cellPlacementIndex9
Definition: HGCalCell.h:20
static constexpr int32_t cellPlacementIndex7
Definition: HGCalCell.h:18
static constexpr int32_t truncatedCell
Definition: HGCalCell.h:30
static constexpr int32_t extendedCell
Definition: HGCalCell.h:31
static constexpr int32_t cornerCell
Definition: HGCalCell.h:29
static constexpr int32_t cellPlacementIndex4
Definition: HGCalCell.h:15
static constexpr int32_t cellPlacementIndex1
Definition: HGCalCell.h:12
static constexpr int32_t cellPlacementIndex6
Definition: HGCalCell.h:17
static constexpr int32_t cellPlacementIndex2
Definition: HGCalCell.h:13
static constexpr int32_t cellPlacementExtra
Definition: HGCalCell.h:24

◆ cellUV2XY1()

std::pair< double, double > HGCalCell::cellUV2XY1 ( int32_t  u,
int32_t  v,
int32_t  placementIndex,
int32_t  type 
)

Definition at line 22 of file HGCalCell.cc.

References cellPlacementIndex0, cellPlacementIndex1, cellPlacementIndex10, cellPlacementIndex11, cellPlacementIndex2, cellPlacementIndex3, cellPlacementIndex4, cellPlacementIndex6, cellPlacementIndex7, cellPlacementIndex8, cellPlacementIndex9, cellX_, cellY_, ncell_, findQualityFiles::v, x, and y.

Referenced by algorithm(), and DDHGCalWaferFullRotated::execute().

22  {
23  if (type != 0)
24  type = 1;
25  double x(0), y(0);
26  switch (placementIndex) {
28  x = (1.5 * (v - u) + 0.5) * cellX_[type];
29  y = (v + u - 2 * ncell_[type] + 1) * cellY_[type];
30  break;
32  x = (1.5 * (v - ncell_[type]) + 1.0) * cellX_[type];
33  y = (2 * u - v - ncell_[type]) * cellY_[type];
34  break;
36  x = (1.5 * (u - ncell_[type]) + 0.5) * cellX_[type];
37  y = -(2 * v - u - ncell_[type] + 1) * cellY_[type];
38  break;
40  x = -(1.5 * (v - u) + 0.5) * cellX_[type];
41  y = -(v + u - 2 * ncell_[type] + 1) * cellY_[type];
42  break;
44  x = -(1.5 * (v - ncell_[type]) + 1) * cellX_[type];
45  y = -(2 * u - v - ncell_[type]) * cellY_[type];
46  break;
48  x = -(1.5 * (u - ncell_[type]) + 0.5) * cellX_[type];
49  y = (2 * v - u - ncell_[type] + 1) * cellY_[type];
50  break;
52  x = (1.5 * (u - v) - 0.5) * cellX_[type];
53  y = (v + u - 2 * ncell_[type] + 1) * cellY_[type];
54  break;
56  x = -(1.5 * (v - ncell_[type]) + 1.0) * cellX_[type];
57  y = (2 * u - v - ncell_[type]) * cellY_[type];
58  break;
60  x = -(1.5 * (u - ncell_[type]) + 0.5) * cellX_[type];
61  y = -(2 * v - u - ncell_[type] + 1) * cellY_[type];
62  break;
64  x = -(1.5 * (u - v) - 0.5) * cellX_[type];
65  y = -(v + u - 2 * ncell_[type] + 1) * cellY_[type];
66  break;
68  x = (1.5 * (v - ncell_[type]) + 1) * cellX_[type];
69  y = -(2 * u - v - ncell_[type]) * cellY_[type];
70  break;
71  default:
72  x = (1.5 * (u - ncell_[type]) + 0.5) * cellX_[type];
73  y = (2 * v - u - ncell_[type] + 1) * cellY_[type];
74  break;
75  }
76  return std::make_pair(x, y);
77 }
static constexpr int32_t cellPlacementIndex8
Definition: HGCalCell.h:19
static constexpr int32_t cellPlacementIndex3
Definition: HGCalCell.h:14
int32_t ncell_[2]
Definition: HGCalCell.h:87
static constexpr int32_t cellPlacementIndex10
Definition: HGCalCell.h:21
static constexpr int32_t cellPlacementIndex0
Definition: HGCalCell.h:11
static constexpr int32_t cellPlacementIndex9
Definition: HGCalCell.h:20
static constexpr int32_t cellPlacementIndex7
Definition: HGCalCell.h:18
static constexpr int32_t cellPlacementIndex11
Definition: HGCalCell.h:22
static constexpr int32_t cellPlacementIndex4
Definition: HGCalCell.h:15
static constexpr int32_t cellPlacementIndex1
Definition: HGCalCell.h:12
double cellX_[2]
Definition: HGCalCell.h:88
static constexpr int32_t cellPlacementIndex6
Definition: HGCalCell.h:17
double cellY_[2]
Definition: HGCalCell.h:88
static constexpr int32_t cellPlacementIndex2
Definition: HGCalCell.h:13

◆ cellUV2XY2()

std::pair< double, double > HGCalCell::cellUV2XY2 ( int32_t  u,
int32_t  v,
int32_t  placementIndex,
int32_t  type 
)

Definition at line 79 of file HGCalCell.cc.

References cellPlacementExtra, cellX_, cellY_, ncell_, sqrt3By2_, findQualityFiles::v, x, and y.

Referenced by HGCalMouseBiteTester::analyze().

79  {
80  if (type != 0)
81  type = 1;
82  double x(0), y(0);
83  if (placementIndex < HGCalCell::cellPlacementExtra) {
84  double x0 = (1.5 * (u - v) - 0.5) * cellX_[type];
85  double y0 = (u + v - 2 * ncell_[type] + 1) * cellY_[type];
86  const std::vector<double> fcos = {1.0, 0.5, -0.5, -1.0, -0.5, 0.5};
87  const std::vector<double> fsin = {0.0, sqrt3By2_, sqrt3By2_, 0.0, -sqrt3By2_, -sqrt3By2_};
88  x = x0 * fcos[placementIndex] - y0 * fsin[placementIndex];
89  y = x0 * fsin[placementIndex] + y0 * fcos[placementIndex];
90  } else {
91  double x0 = (1.5 * (v - ncell_[type]) + 1.0) * cellX_[type];
92  double y0 = (2 * u - v - ncell_[type]) * cellY_[type];
93  const std::vector<double> fcos = {0.5, 1.0, 0.5, -0.5, -1.0, -0.5};
94  const std::vector<double> fsin = {sqrt3By2_, 0.0, -sqrt3By2_, -sqrt3By2_, 0.0, sqrt3By2_};
95  x = x0 * fcos[placementIndex - HGCalCell::cellPlacementExtra] -
96  y0 * fsin[placementIndex - HGCalCell::cellPlacementExtra];
97  y = x0 * fsin[placementIndex - HGCalCell::cellPlacementExtra] +
98  y0 * fcos[placementIndex - HGCalCell::cellPlacementExtra];
99  }
100  return std::make_pair(x, y);
101 }
const double sqrt3By2_
Definition: HGCalCell.h:86
int32_t ncell_[2]
Definition: HGCalCell.h:87
double cellX_[2]
Definition: HGCalCell.h:88
double cellY_[2]
Definition: HGCalCell.h:88
static constexpr int32_t cellPlacementExtra
Definition: HGCalCell.h:24

Member Data Documentation

◆ bottomCell

constexpr int32_t HGCalCell::bottomCell = 24
static

Definition at line 69 of file HGCalCell.h.

Referenced by HGCalCellOffset::cellOffsetUV2XY1(), and cellType().

◆ bottomCorner

constexpr int32_t HGCalCell::bottomCorner = 11
static

◆ bottomLeftCorner

constexpr int32_t HGCalCell::bottomLeftCorner = 12
static

Definition at line 60 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ bottomLeftEdge

constexpr int32_t HGCalCell::bottomLeftEdge = 1
static

◆ bottomRightCorner

constexpr int32_t HGCalCell::bottomRightCorner = 16
static

Definition at line 64 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ bottomRightEdge

constexpr int32_t HGCalCell::bottomRightEdge = 6
static

Definition at line 58 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ cellPlacementExtra

constexpr int32_t HGCalCell::cellPlacementExtra = 6
static

◆ cellPlacementIndex0

constexpr int32_t HGCalCell::cellPlacementIndex0 = 0
static

Definition at line 11 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex1

constexpr int32_t HGCalCell::cellPlacementIndex1 = 1
static

Definition at line 12 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex10

constexpr int32_t HGCalCell::cellPlacementIndex10 = 10
static

Definition at line 21 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex11

constexpr int32_t HGCalCell::cellPlacementIndex11 = 11
static

Definition at line 22 of file HGCalCell.h.

Referenced by cellUV2XY1().

◆ cellPlacementIndex2

constexpr int32_t HGCalCell::cellPlacementIndex2 = 2
static

Definition at line 13 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex3

constexpr int32_t HGCalCell::cellPlacementIndex3 = 3
static

Definition at line 14 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex4

constexpr int32_t HGCalCell::cellPlacementIndex4 = 4
static

Definition at line 15 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex5

constexpr int32_t HGCalCell::cellPlacementIndex5 = 5
static

Definition at line 16 of file HGCalCell.h.

◆ cellPlacementIndex6

constexpr int32_t HGCalCell::cellPlacementIndex6 = 6
static

Definition at line 17 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex7

constexpr int32_t HGCalCell::cellPlacementIndex7 = 7
static

Definition at line 18 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex8

constexpr int32_t HGCalCell::cellPlacementIndex8 = 8
static

Definition at line 19 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementIndex9

constexpr int32_t HGCalCell::cellPlacementIndex9 = 9
static

Definition at line 20 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and cellUV2XY1().

◆ cellPlacementOld

constexpr int32_t HGCalCell::cellPlacementOld = 7
static

◆ cellPlacementTotal

constexpr int32_t HGCalCell::cellPlacementTotal = 12
static

Definition at line 26 of file HGCalCell.h.

Referenced by HGCalCellUV::HGCalCellUV().

◆ cellX_

double HGCalCell::cellX_[2]
private

Definition at line 88 of file HGCalCell.h.

Referenced by cellUV2XY1(), cellUV2XY2(), and HGCalCell().

◆ cellY_

double HGCalCell::cellY_[2]
private

Definition at line 88 of file HGCalCell.h.

Referenced by cellUV2XY1(), cellUV2XY2(), and HGCalCell().

◆ centralCell

constexpr int32_t HGCalCell::centralCell = 0
static

Definition at line 52 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ cornerCell

constexpr int32_t HGCalCell::cornerCell = 1
static

◆ extendedCell

constexpr int32_t HGCalCell::extendedCell = 3
static

◆ extendedMBCell

constexpr int32_t HGCalCell::extendedMBCell = 5
static

◆ fullCell

constexpr int32_t HGCalCell::fullCell = 0
static

Definition at line 28 of file HGCalCell.h.

Referenced by cellType(), cellUV2Cell(), and HGCalCellOffset::HGCalCellOffset().

◆ fullWaferCellsCount

constexpr int32_t HGCalCell::fullWaferCellsCount = 6
static

Definition at line 34 of file HGCalCell.h.

◆ halfCell

constexpr int32_t HGCalCell::halfCell = 11
static

◆ halfExtCell

constexpr int32_t HGCalCell::halfExtCell = 13
static

◆ halfTrunCell

constexpr int32_t HGCalCell::halfTrunCell = 12
static

◆ HDPartial0920Cell

constexpr int32_t HGCalCell::HDPartial0920Cell = 20
static

◆ HDPartial1021Cell

constexpr int32_t HGCalCell::HDPartial1021Cell = 21
static

◆ LDPartial0007Cell

constexpr int32_t HGCalCell::LDPartial0007Cell = 16
static

◆ LDPartial0209Cell

constexpr int32_t HGCalCell::LDPartial0209Cell = 15
static

◆ LDPartial0714Cell

constexpr int32_t HGCalCell::LDPartial0714Cell = 14
static

◆ LDPartial0815Cell

constexpr int32_t HGCalCell::LDPartial0815Cell = 17
static

◆ LDPartial1415Cell

constexpr int32_t HGCalCell::LDPartial1415Cell = 18
static

◆ LDPartial1515Cell

constexpr int32_t HGCalCell::LDPartial1515Cell = 19
static

◆ leftCell

constexpr int32_t HGCalCell::leftCell = 21
static

Definition at line 66 of file HGCalCell.h.

Referenced by HGCalCellOffset::cellOffsetUV2XY1(), and cellType().

◆ leftEdge

constexpr int32_t HGCalCell::leftEdge = 2
static

Definition at line 54 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ ncell_

int32_t HGCalCell::ncell_[2]
private

Definition at line 87 of file HGCalCell.h.

Referenced by cellUV2Cell(), cellUV2XY1(), cellUV2XY2(), and HGCalCell().

◆ partiaclCellsPosOffset

constexpr int32_t HGCalCell::partiaclCellsPosOffset = 21
static

Definition at line 70 of file HGCalCell.h.

Referenced by HGCalCellOffset::cellAreaUV(), and HGCalCellOffset::cellOffsetUV2XY1().

◆ partiaclWaferCellsOffset

constexpr int32_t HGCalCell::partiaclWaferCellsOffset = 11
static

◆ rightCell

constexpr int32_t HGCalCell::rightCell = 22
static

Definition at line 67 of file HGCalCell.h.

Referenced by HGCalCellOffset::cellOffsetUV2XY1(), and cellType().

◆ rightEdge

constexpr int32_t HGCalCell::rightEdge = 5
static

Definition at line 57 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ sqrt3By2_

const double HGCalCell::sqrt3By2_ = (0.5 * std::sqrt(3.0))
private

Definition at line 86 of file HGCalCell.h.

Referenced by cellUV2XY2(), and HGCalCell().

◆ topCell

constexpr int32_t HGCalCell::topCell = 23
static

Definition at line 68 of file HGCalCell.h.

Referenced by HGCalCellOffset::cellOffsetUV2XY1(), and cellType().

◆ topCorner

constexpr int32_t HGCalCell::topCorner = 14
static

Definition at line 62 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ topLeftCorner

constexpr int32_t HGCalCell::topLeftCorner = 13
static

Definition at line 61 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ topLeftEdge

constexpr int32_t HGCalCell::topLeftEdge = 3
static

Definition at line 55 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ topRightCorner

constexpr int32_t HGCalCell::topRightCorner = 15
static

Definition at line 63 of file HGCalCell.h.

Referenced by cellType(), and HGCalTopology::neighbors().

◆ topRightEdge

constexpr int32_t HGCalCell::topRightEdge = 4
static

◆ truncatedCell

constexpr int32_t HGCalCell::truncatedCell = 2
static

◆ truncatedMBCell

constexpr int32_t HGCalCell::truncatedMBCell = 4
static

◆ undefinedCell

constexpr int32_t HGCalCell::undefinedCell = -1
static

Definition at line 51 of file HGCalCell.h.