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HistoND.h
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1 #ifndef NPSTAT_HISTOND_HH_
2 #define NPSTAT_HISTOND_HH_
3 
16 
17 namespace npstat {
42  template <typename Numeric, class Axis = HistoAxis>
43  class HistoND {
44  template <typename Num2, class Axis2>
45  friend class HistoND;
46 
47  public:
48  typedef Numeric value_type;
49  typedef Axis axis_type;
50 
51  enum RebinType { SAMPLE = 0, SUM, AVERAGE };
52 
54  explicit HistoND(const std::vector<Axis>& axes,
55  const char* title = nullptr,
56  const char* accumulatedDataLabel = nullptr);
57 
59  explicit HistoND(const Axis& xAxis, const char* title = nullptr, const char* accumulatedDataLabel = nullptr);
60 
62  HistoND(const Axis& xAxis,
63  const Axis& yAxis,
64  const char* title = nullptr,
65  const char* accumulatedDataLabel = nullptr);
66 
68  HistoND(const Axis& xAxis,
69  const Axis& yAxis,
70  const Axis& zAxis,
71  const char* title = nullptr,
72  const char* accumulatedDataLabel = nullptr);
73 
75  HistoND(const Axis& xAxis,
76  const Axis& yAxis,
77  const Axis& zAxis,
78  const Axis& tAxis,
79  const char* title = nullptr,
80  const char* accumulatedDataLabel = nullptr);
81 
83  HistoND(const Axis& xAxis,
84  const Axis& yAxis,
85  const Axis& zAxis,
86  const Axis& tAxis,
87  const Axis& vAxis,
88  const char* title = nullptr,
89  const char* accumulatedDataLabel = nullptr);
90 
96  HistoND(const ArrayShape& shape,
98  const char* title = nullptr,
99  const char* accumulatedDataLabel = nullptr);
100 
107  template <typename Num2, class Functor>
109  const Functor& f,
110  const char* title = nullptr,
111  const char* accumulatedDataLabel = nullptr);
112 
120  template <typename Num2>
121  HistoND(const HistoND<Num2, Axis>& h, const unsigned* indices, unsigned nIndices, const char* title = nullptr);
122 
132  template <typename Num2>
133  HistoND(const HistoND<Num2, Axis>& h, const Axis& newAxis, unsigned newAxisNumber, const char* title = nullptr);
134 
152  template <typename Num2>
154  RebinType rType,
155  const unsigned* newBinCounts,
156  unsigned lenNewBinCounts,
157  const double* shifts = nullptr,
158  const char* title = nullptr);
159 
161  HistoND(const HistoND&);
162 
167  HistoND& operator=(const HistoND&);
168 
170  HistoND() = delete;
171 
173  inline unsigned dim() const { return dim_; }
174 
176  inline const std::string& title() const { return title_; }
177 
179  inline const std::string& accumulatedDataLabel() const { return accumulatedDataLabel_; }
180 
182  inline const ArrayND<Numeric>& binContents() const { return data_; }
183 
185  inline const ArrayND<Numeric>& overflows() const { return overflow_; }
186 
188  inline const std::vector<Axis>& axes() const { return axes_; }
189 
191  inline const Axis& axis(const unsigned i) const { return axes_.at(i); }
192 
194  inline unsigned long nBins() const { return data_.length(); }
195 
197  inline unsigned long nFillsTotal() const { return fillCount_; }
198 
200  inline unsigned long nFillsInRange() const { return fillCount_ - overCount_; }
201 
203  inline unsigned long nFillsOver() const { return overCount_; }
204 
209  bool isUniformlyBinned() const;
210 
212  inline void setTitle(const char* newtitle) {
213  title_ = newtitle ? newtitle : "";
214  ++modCount_;
215  }
216 
218  inline void setAccumulatedDataLabel(const char* newlabel) {
219  accumulatedDataLabel_ = newlabel ? newlabel : "";
220  ++modCount_;
221  }
222 
224  inline void setAxisLabel(const unsigned axisNum, const char* newlabel) {
225  axes_.at(axisNum).setLabel(newlabel);
226  ++modCount_;
227  }
228 
233  double binVolume(unsigned long binNumber = 0) const;
234 
240  void binCenter(unsigned long binNumber, double* coords, unsigned lenCoords) const;
241 
249  template <class Point>
250  void allBinCenters(std::vector<Point>* centers) const;
251 
253  void binBox(unsigned long binNumber, BoxND<double>* box) const;
254 
256  BoxND<double> boundingBox() const;
257 
263  double volume() const;
264 
266  double integral() const;
267 
269  void clear();
270 
272  void clearBinContents();
273 
275  void clearOverflows();
276 
278  bool operator==(const HistoND&) const;
279 
281  bool operator!=(const HistoND&) const;
282 
287  bool isSameData(const HistoND&) const;
288 
295  template <typename Num2>
296  void fill(const double* coords, unsigned coordLength, const Num2& weight);
297 
299 
303  template <typename Num2>
304  void fill(const Num2& weight);
305 
306  template <typename Num2>
307  void fill(double x0, const Num2& weight);
308 
309  template <typename Num2>
310  void fill(double x0, double x1, const Num2& weight);
311 
312  template <typename Num2>
313  void fill(double x0, double x1, double x2, const Num2& weight);
314 
315  template <typename Num2>
316  void fill(double x0, double x1, double x2, double x3, const Num2& weight);
317 
318  template <typename Num2>
319  void fill(double x0, double x1, double x2, double x3, double x4, const Num2& weight);
320 
321  template <typename Num2>
322  void fill(double x0, double x1, double x2, double x3, double x4, double x5, const Num2& weight);
323 
324  template <typename Num2>
325  void fill(double x0, double x1, double x2, double x3, double x4, double x5, double x6, const Num2& weight);
326 
327  template <typename Num2>
328  void fill(
329  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, const Num2& weight);
330 
331  template <typename Num2>
332  void fill(double x0,
333  double x1,
334  double x2,
335  double x3,
336  double x4,
337  double x5,
338  double x6,
339  double x7,
340  double x8,
341  const Num2& weight);
342 
343  template <typename Num2>
344  void fill(double x0,
345  double x1,
346  double x2,
347  double x3,
348  double x4,
349  double x5,
350  double x6,
351  double x7,
352  double x8,
353  double x9,
354  const Num2& weight);
356 
370  template <typename Num2, class Functor>
371  void dispatch(const double* coords, unsigned coordLength, Num2& weight, Functor& f);
372 
374 
378  template <typename Num2, class Functor>
379  void dispatch(Num2& weight, Functor& f);
380 
381  template <typename Num2, class Functor>
382  void dispatch(double x0, Num2& weight, Functor& f);
383 
384  template <typename Num2, class Functor>
385  void dispatch(double x0, double x1, Num2& weight, Functor& f);
386 
387  template <typename Num2, class Functor>
388  void dispatch(double x0, double x1, double x2, Num2& weight, Functor& f);
389 
390  template <typename Num2, class Functor>
391  void dispatch(double x0, double x1, double x2, double x3, Num2& weight, Functor& f);
392 
393  template <typename Num2, class Functor>
394  void dispatch(double x0, double x1, double x2, double x3, double x4, Num2& weight, Functor& f);
395 
396  template <typename Num2, class Functor>
397  void dispatch(double x0, double x1, double x2, double x3, double x4, double x5, Num2& weight, Functor& f);
398 
399  template <typename Num2, class Functor>
400  void dispatch(double x0, double x1, double x2, double x3, double x4, double x5, double x6, Num2& weight, Functor& f);
401 
402  template <typename Num2, class Functor>
403  void dispatch(double x0,
404  double x1,
405  double x2,
406  double x3,
407  double x4,
408  double x5,
409  double x6,
410  double x7,
411  Num2& weight,
412  Functor& f);
413 
414  template <typename Num2, class Functor>
415  void dispatch(double x0,
416  double x1,
417  double x2,
418  double x3,
419  double x4,
420  double x5,
421  double x6,
422  double x7,
423  double x8,
424  Num2& weight,
425  Functor& f);
426 
427  template <typename Num2, class Functor>
428  void dispatch(double x0,
429  double x1,
430  double x2,
431  double x3,
432  double x4,
433  double x5,
434  double x6,
435  double x7,
436  double x8,
437  double x9,
438  Num2& weight,
439  Functor& f);
441 
448  const Numeric& examine(const double* coords, unsigned coordLength) const;
449 
451 
455  const Numeric& examine() const;
456 
457  const Numeric& examine(double x0) const;
458 
459  const Numeric& examine(double x0, double x1) const;
460 
461  const Numeric& examine(double x0, double x1, double x2) const;
462 
463  const Numeric& examine(double x0, double x1, double x2, double x3) const;
464 
465  const Numeric& examine(double x0, double x1, double x2, double x3, double x4) const;
466 
467  const Numeric& examine(double x0, double x1, double x2, double x3, double x4, double x5) const;
468 
469  const Numeric& examine(double x0, double x1, double x2, double x3, double x4, double x5, double x6) const;
470 
471  const Numeric& examine(double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7) const;
472 
473  const Numeric& examine(
474  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, double x8) const;
475 
476  const Numeric& examine(
477  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, double x8, double x9)
478  const;
480 
487  const Numeric& closestBin(const double* coords, unsigned coordLength) const;
488 
490 
494  const Numeric& closestBin() const;
495 
496  const Numeric& closestBin(double x0) const;
497 
498  const Numeric& closestBin(double x0, double x1) const;
499 
500  const Numeric& closestBin(double x0, double x1, double x2) const;
501 
502  const Numeric& closestBin(double x0, double x1, double x2, double x3) const;
503 
504  const Numeric& closestBin(double x0, double x1, double x2, double x3, double x4) const;
505 
506  const Numeric& closestBin(double x0, double x1, double x2, double x3, double x4, double x5) const;
507 
508  const Numeric& closestBin(double x0, double x1, double x2, double x3, double x4, double x5, double x6) const;
509 
510  const Numeric& closestBin(
511  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7) const;
512 
513  const Numeric& closestBin(
514  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, double x8) const;
515 
516  const Numeric& closestBin(
517  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, double x8, double x9)
518  const;
520 
543  template <typename Num2>
544  void fillC(const double* coords, unsigned coordLength, const Num2& weight);
545 
547 
551  template <typename Num2>
552  void fillC(const Num2& weight);
553 
554  template <typename Num2>
555  void fillC(double x0, const Num2& weight);
556 
557  template <typename Num2>
558  void fillC(double x0, double x1, const Num2& weight);
559 
560  template <typename Num2>
561  void fillC(double x0, double x1, double x2, const Num2& weight);
562 
563  template <typename Num2>
564  void fillC(double x0, double x1, double x2, double x3, const Num2& weight);
565 
566  template <typename Num2>
567  void fillC(double x0, double x1, double x2, double x3, double x4, const Num2& weight);
568 
569  template <typename Num2>
570  void fillC(double x0, double x1, double x2, double x3, double x4, double x5, const Num2& weight);
571 
572  template <typename Num2>
573  void fillC(double x0, double x1, double x2, double x3, double x4, double x5, double x6, const Num2& weight);
574 
575  template <typename Num2>
576  void fillC(
577  double x0, double x1, double x2, double x3, double x4, double x5, double x6, double x7, const Num2& weight);
578 
579  template <typename Num2>
580  void fillC(double x0,
581  double x1,
582  double x2,
583  double x3,
584  double x4,
585  double x5,
586  double x6,
587  double x7,
588  double x8,
589  const Num2& weight);
590 
591  template <typename Num2>
592  void fillC(double x0,
593  double x1,
594  double x2,
595  double x3,
596  double x4,
597  double x5,
598  double x6,
599  double x7,
600  double x8,
601  double x9,
602  const Num2& weight);
604 
609  template <typename Num2>
611 
621  template <typename Num2>
623 
625 
626  template <typename Num2>
627  void setBin(const unsigned* index, unsigned indexLen, const Num2& v);
628 
629  template <typename Num2>
630  void setBin(const Num2& v);
631 
632  template <typename Num2>
633  void setBin(unsigned i0, const Num2& v);
634 
635  template <typename Num2>
636  void setBin(unsigned i0, unsigned i1, const Num2& v);
637 
638  template <typename Num2>
639  void setBin(unsigned i0, unsigned i1, unsigned i2, const Num2& v);
640 
641  template <typename Num2>
642  void setBin(unsigned i0, unsigned i1, unsigned i2, unsigned i3, const Num2& v);
643 
644  template <typename Num2>
645  void setBin(unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, const Num2& v);
646 
647  template <typename Num2>
648  void setBin(unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, unsigned i5, const Num2& v);
649 
650  template <typename Num2>
651  void setBin(
652  unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, unsigned i5, unsigned i6, const Num2& v);
653 
654  template <typename Num2>
655  void setBin(unsigned i0,
656  unsigned i1,
657  unsigned i2,
658  unsigned i3,
659  unsigned i4,
660  unsigned i5,
661  unsigned i6,
662  unsigned i7,
663  const Num2& v);
664 
665  template <typename Num2>
666  void setBin(unsigned i0,
667  unsigned i1,
668  unsigned i2,
669  unsigned i3,
670  unsigned i4,
671  unsigned i5,
672  unsigned i6,
673  unsigned i7,
674  unsigned i8,
675  const Num2& v);
676 
677  template <typename Num2>
678  void setBin(unsigned i0,
679  unsigned i1,
680  unsigned i2,
681  unsigned i3,
682  unsigned i4,
683  unsigned i5,
684  unsigned i6,
685  unsigned i7,
686  unsigned i8,
687  unsigned i9,
688  const Num2& v);
689 
690  template <typename Num2>
691  inline void setLinearBin(const unsigned long index, const Num2& v) {
693  ++modCount_;
694  }
696 
698 
699  template <typename Num2>
700  void setBinAt(const unsigned* index, unsigned indexLen, const Num2& v);
701 
702  template <typename Num2>
703  void setBinAt(const Num2& v);
704 
705  template <typename Num2>
706  void setBinAt(unsigned i0, const Num2& v);
707 
708  template <typename Num2>
709  void setBinAt(unsigned i0, unsigned i1, const Num2& v);
710 
711  template <typename Num2>
712  void setBinAt(unsigned i0, unsigned i1, unsigned i2, const Num2& v);
713 
714  template <typename Num2>
715  void setBinAt(unsigned i0, unsigned i1, unsigned i2, unsigned i3, const Num2& v);
716 
717  template <typename Num2>
718  void setBinAt(unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, const Num2& v);
719 
720  template <typename Num2>
721  void setBinAt(unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, unsigned i5, const Num2& v);
722 
723  template <typename Num2>
724  void setBinAt(
725  unsigned i0, unsigned i1, unsigned i2, unsigned i3, unsigned i4, unsigned i5, unsigned i6, const Num2& v);
726 
727  template <typename Num2>
728  void setBinAt(unsigned i0,
729  unsigned i1,
730  unsigned i2,
731  unsigned i3,
732  unsigned i4,
733  unsigned i5,
734  unsigned i6,
735  unsigned i7,
736  const Num2& v);
737 
738  template <typename Num2>
739  void setBinAt(unsigned i0,
740  unsigned i1,
741  unsigned i2,
742  unsigned i3,
743  unsigned i4,
744  unsigned i5,
745  unsigned i6,
746  unsigned i7,
747  unsigned i8,
748  const Num2& v);
749 
750  template <typename Num2>
751  void setBinAt(unsigned i0,
752  unsigned i1,
753  unsigned i2,
754  unsigned i3,
755  unsigned i4,
756  unsigned i5,
757  unsigned i6,
758  unsigned i7,
759  unsigned i8,
760  unsigned i9,
761  const Num2& v);
762 
763  template <typename Num2>
764  inline void setLinearBinAt(const unsigned long index, const Num2& v) {
766  ++modCount_;
767  }
769 
771  template <typename Num2>
772  void setBinContents(const Num2* data, unsigned long dataLength, bool clearOverflows = true);
773 
775  template <typename Num2>
776  void setOverflows(const Num2* data, unsigned long dataLength);
777 
782  template <typename Num2>
783  inline void setBinsToConst(const Num2& value) {
785  ++modCount_;
786  }
787 
792  template <typename Num2>
793  inline void setOverflowsToConst(const Num2& value) {
795  ++modCount_;
796  }
797 
805 
807 
811  inline void setNFillsTotal(const unsigned long i) {
812  fillCount_ = i;
813  ++modCount_;
814  }
815  inline void setNFillsOver(const unsigned long i) {
816  overCount_ = i;
817  ++modCount_;
818  }
820 
822  template <typename Num2>
823  HistoND& operator*=(const Num2& r);
824 
826  template <typename Num2>
827  HistoND& operator/=(const Num2& r);
828 
830 
831  template <typename Num2>
832  void scaleBinContents(const Num2* data, unsigned long dataLength);
833 
834  template <typename Num2>
835  void scaleOverflows(const Num2* data, unsigned long dataLength);
837 
839 
843  template <typename Num2>
844  void addToBinContents(const Num2& weight);
845 
846  template <typename Num2>
847  void addToOverflows(const Num2& weight);
849 
851 
856  template <typename Num2>
857  void addToBinContents(const Num2* data, unsigned long dataLength);
858 
859  template <typename Num2>
860  void addToOverflows(const Num2* data, unsigned long dataLength);
862 
871  template <typename Acc>
872  void accumulateBinsInBox(const BoxND<double>& box, Acc* acc, bool calculateAverage = false) const;
873 
875 
885  template <typename Num2, typename Num3>
886  void addToProjection(HistoND<Num2, Axis>* projection,
888  const unsigned* projectedIndices,
889  unsigned nProjectedIndices) const;
890 
891  template <typename Num2, typename Num3>
892  void addToProjection(HistoND<Num2, Axis>* projection,
893  AbsVisitor<Numeric, Num3>& projector,
894  const unsigned* projectedIndices,
895  unsigned nProjectedIndices) const;
897 
899  HistoND transpose(unsigned axisNum1, unsigned axisNum2) const;
900 
913  inline unsigned long getModCount() const { return modCount_; }
914 
920  inline void incrModCount() { ++modCount_; }
921 
923 
924  inline gs::ClassId classId() const { return gs::ClassId(*this); }
925  bool write(std::ostream& of) const;
927 
928  static const char* classname();
929  static inline unsigned version() { return 1; }
930  static HistoND* read(const gs::ClassId& id, std::istream& in);
931 
932  private:
933  // Special constructor which speeds up the "transpose" operation.
934  // Does not do full error checking (some of it is done in transpose).
935  HistoND(const HistoND& r, unsigned ax1, unsigned ax2);
936 
937  template <typename Num2>
938  void fillPreservingCentroid(const Num2& weight);
939 
940  template <typename Acc>
941  void accumulateBinsLoop(unsigned level,
942  const BoxND<double>& box,
943  unsigned* idx,
944  Acc* accumulator,
945  double overlapFraction,
946  long double* wsum) const;
951  std::vector<Axis> axes_;
952  mutable std::vector<double> weightBuf_;
953  mutable std::vector<unsigned> indexBuf_;
954  unsigned long fillCount_;
955  unsigned long overCount_;
956  unsigned long modCount_;
957  unsigned dim_;
958  };
959 
974  template <typename Histo>
975  void convertHistoToDensity(Histo* histogram, bool knownNonNegative = false);
976 
982  template <typename Histo>
983  std::vector<LinearMapper1d> densityScanHistoMap(const Histo& histo);
984 
995  template <typename Histo>
996  std::vector<CircularMapper1d> convolutionHistoMap(const Histo& histo, bool doubleDataRange);
997 } // namespace npstat
998 
999 #include <cassert>
1001 #include <sstream>
1002 #include <climits>
1003 #include <algorithm>
1004 
1005 #include "Alignment/Geners/interface/CPP11_auto_ptr.hh"
1006 #include "Alignment/Geners/interface/binaryIO.hh"
1007 
1008 namespace npstat {
1009  namespace Private {
1010  template <class Axis>
1011  ArrayShape makeHistoShape(const std::vector<Axis>& axes) {
1012  const unsigned n = axes.size();
1014  result.reserve(n);
1015  for (unsigned i = 0; i < n; ++i)
1016  result.push_back(axes[i].nBins());
1017  return result;
1018  }
1019 
1020  template <class Axis>
1023  result.reserve(1U);
1024  result.push_back(xAxis.nBins());
1025  return result;
1026  }
1027 
1028  template <class Axis>
1029  ArrayShape makeHistoShape(const Axis& xAxis, const Axis& yAxis) {
1031  result.reserve(2U);
1032  result.push_back(xAxis.nBins());
1033  result.push_back(yAxis.nBins());
1034  return result;
1035  }
1036 
1037  template <class Axis>
1038  ArrayShape makeHistoShape(const Axis& xAxis, const Axis& yAxis, const Axis& zAxis) {
1040  result.reserve(3U);
1041  result.push_back(xAxis.nBins());
1042  result.push_back(yAxis.nBins());
1043  result.push_back(zAxis.nBins());
1044  return result;
1045  }
1046 
1047  template <class Axis>
1048  ArrayShape makeHistoShape(const Axis& xAxis, const Axis& yAxis, const Axis& zAxis, const Axis& tAxis) {
1050  result.reserve(4U);
1051  result.push_back(xAxis.nBins());
1052  result.push_back(yAxis.nBins());
1053  result.push_back(zAxis.nBins());
1054  result.push_back(tAxis.nBins());
1055  return result;
1056  }
1057 
1058  template <class Axis>
1060  const Axis& xAxis, const Axis& yAxis, const Axis& zAxis, const Axis& tAxis, const Axis& vAxis) {
1062  result.reserve(5U);
1063  result.push_back(xAxis.nBins());
1064  result.push_back(yAxis.nBins());
1065  result.push_back(zAxis.nBins());
1066  result.push_back(tAxis.nBins());
1067  result.push_back(vAxis.nBins());
1068  return result;
1069  }
1070 
1071  template <class Axis>
1072  std::vector<Axis> rebinAxes(const std::vector<Axis>& axes, const unsigned* newBins, const unsigned lenNewBins) {
1073  const unsigned dim = axes.size();
1074  if (lenNewBins != dim)
1076  "In npstat::Private::rebinAxes: invalid length "
1077  "of the new bins array");
1078  assert(newBins);
1079  std::vector<Axis> newAxes;
1080  newAxes.reserve(dim);
1081  for (unsigned i = 0; i < dim; ++i)
1082  newAxes.push_back(axes[i].rebin(newBins[i]));
1083  return newAxes;
1084  }
1085 
1086  template <class Axis>
1087  std::vector<Axis> axesOfASlice(const std::vector<Axis>& axes,
1088  const unsigned* fixedIndices,
1089  const unsigned nFixedIndices) {
1090  const unsigned dim = axes.size();
1091  std::vector<Axis> newAxes;
1092  if (nFixedIndices == 0U)
1094  "In npstat::Private::axesOfASlice: "
1095  "at least one fixed index must be specified");
1096  if (nFixedIndices > dim)
1097  throw npstat::NpstatInvalidArgument("In npstat::Private::axesOfASlice: too many fixed indices");
1098  assert(fixedIndices);
1099  for (unsigned i = 0; i < nFixedIndices; ++i)
1100  if (fixedIndices[i] >= dim)
1101  throw npstat::NpstatInvalidArgument("In npstat::Private::axesOfASlice: fixed index out of range");
1102  newAxes.reserve(dim - nFixedIndices);
1103  for (unsigned i = 0; i < dim; ++i) {
1104  bool fixed = false;
1105  for (unsigned j = 0; j < nFixedIndices; ++j)
1106  if (fixedIndices[j] == i) {
1107  fixed = true;
1108  break;
1109  }
1110  if (!fixed)
1111  newAxes.push_back(axes[i]);
1112  }
1113  if (newAxes.size() != dim - nFixedIndices)
1114  throw npstat::NpstatInvalidArgument("In npstat::Private::axesOfASlice: duplicate fixed index");
1115  return newAxes;
1116  }
1117 
1118  template <class Axis>
1119  ArrayShape shapeOfASlice(const std::vector<Axis>& axes,
1120  const unsigned* fixedIndices,
1121  const unsigned nFixedIndices) {
1122  const unsigned dim = axes.size();
1123  if (nFixedIndices == 0U)
1125  "In npstat::Private::shapeOfASlice: "
1126  "at least one fixed index must be specified");
1127  if (nFixedIndices > dim)
1128  throw npstat::NpstatInvalidArgument("In npstat::Private::shapeOfASlice: too many fixed indices");
1129  assert(fixedIndices);
1130 
1131  // Check that the fixed indices are within range
1132  for (unsigned j = 0; j < nFixedIndices; ++j)
1133  if (fixedIndices[j] >= dim)
1134  throw npstat::NpstatInvalidArgument("In npstat::Private::shapeOfASlice: fixed index out of range");
1135 
1136  // Build the shape for the slice
1137  ArrayShape sh;
1138  if (nFixedIndices < dim)
1139  sh.reserve(dim - nFixedIndices);
1140  for (unsigned i = 0; i < dim; ++i) {
1141  bool fixed = false;
1142  for (unsigned j = 0; j < nFixedIndices; ++j)
1143  if (fixedIndices[j] == i) {
1144  fixed = true;
1145  break;
1146  }
1147  if (!fixed)
1148  sh.push_back(axes[i].nBins());
1149  }
1150  if (sh.size() != dim - nFixedIndices)
1151  throw npstat::NpstatInvalidArgument("In npstat::Private::shapeOfASlice: duplicate fixed index");
1152  return sh;
1153  }
1154 
1155  template <class Axis>
1156  std::vector<Axis> addAxis(const std::vector<Axis>& axes, const Axis& newAxis, const unsigned newAxisNumber) {
1157  const unsigned dim = axes.size();
1158  std::vector<Axis> newAxes;
1159  newAxes.reserve(dim + 1U);
1160  unsigned iadd = 0;
1161  for (unsigned i = 0; i < dim; ++i) {
1162  if (newAxisNumber == i)
1163  newAxes.push_back(newAxis);
1164  else
1165  newAxes.push_back(axes[iadd++]);
1166  }
1167  if (iadd == dim)
1168  newAxes.push_back(newAxis);
1169  else
1170  newAxes.push_back(axes[iadd]);
1171  return newAxes;
1172  }
1173 
1174  template <class Axis>
1175  ArrayShape shapeWithExtraAxis(const std::vector<Axis>& axes, const Axis& newAxis, const unsigned newAxisNumber) {
1176  const unsigned dim = axes.size();
1178  result.reserve(dim + 1U);
1179  unsigned iadd = 0;
1180  for (unsigned i = 0; i < dim; ++i) {
1181  if (newAxisNumber == i)
1182  result.push_back(newAxis.nBins());
1183  else
1184  result.push_back(axes[iadd++].nBins());
1185  }
1186  if (iadd == dim)
1187  result.push_back(newAxis.nBins());
1188  else
1189  result.push_back(axes[iadd].nBins());
1190  return result;
1191  }
1192 
1193  inline void h_badargs(const char* method) {
1194  std::ostringstream os;
1195  os << "In npstat::HistoND::" << method << ": number of arguments"
1196  << " is incompatible with histogram dimensionality";
1197  throw npstat::NpstatInvalidArgument(os.str());
1198  }
1199  } // namespace Private
1200 
1201  template <typename Numeric, class Axis>
1202  template <typename Acc>
1204  const BoxND<double>& box,
1205  unsigned* idx,
1206  Acc* accumulator,
1207  const double overlapFraction,
1208  long double* wsum) const {
1209  const Interval<double>& boxSide(box[level]);
1210  const Axis& axis(axes_[level]);
1211  const unsigned nbins = axis.nBins();
1212  const bool lastLevel = level == dim_ - 1U;
1213  for (unsigned i = 0; i < nbins; ++i) {
1214  const double over = overlapFraction * axis.binInterval(i).overlapFraction(boxSide);
1215  if (over > 0.0) {
1216  idx[level] = i;
1217  if (lastLevel) {
1218  *accumulator += over * data_.value(idx, dim_);
1219  *wsum += over;
1220  } else
1221  accumulateBinsLoop(level + 1U, box, idx, accumulator, over, wsum);
1222  }
1223  }
1224  }
1225 
1226  template <typename Numeric, class Axis>
1227  template <typename Acc>
1229  Acc* accumulator,
1230  const bool calculateAverage) const {
1231  if (box.size() != dim_)
1233  "In npstat::HistoND::accumulateBinsInBox: "
1234  "incompatible box dimensionality");
1236  if (dim_) {
1237  long double wsum = 0.0L;
1238  for (unsigned i = 0; i < dim_; ++i)
1239  indexBuf_[i] = 0U;
1240  accumulateBinsLoop(0U, box, &indexBuf_[0], accumulator, 1.0, &wsum);
1241  if (calculateAverage && wsum > 0.0L)
1242  *accumulator *= static_cast<double>(1.0L / wsum);
1243  } else
1244  *accumulator += 1.0 * data_();
1245  }
1246 
1247  template <typename Numeric, class Axis>
1249  data_.clear();
1250  fillCount_ = 0UL;
1251  ++modCount_;
1252  }
1253 
1254  template <typename Numeric, class Axis>
1256  overflow_.clear();
1257  overCount_ = 0UL;
1258  ++modCount_;
1259  }
1260 
1261  template <typename Numeric, class Axis>
1263  clearBinContents();
1264  clearOverflows();
1265  ++modCount_;
1266  }
1267 
1268  template <typename Numeric, class Axis>
1269  HistoND<Numeric, Axis>::HistoND(const std::vector<Axis>& axesIn, const char* title, const char* label)
1270  : title_(title ? title : ""),
1271  accumulatedDataLabel_(label ? label : ""),
1272  data_(Private::makeHistoShape(axesIn)),
1273  overflow_(ArrayShape(axesIn.size(), 3U)),
1274  axes_(axesIn),
1275  weightBuf_(axesIn.size()),
1276  indexBuf_(2U * axesIn.size()),
1277  modCount_(0UL),
1278  dim_(axesIn.size()) {
1279  if (dim_ >= CHAR_BIT * sizeof(unsigned long))
1281  "In npstat::HistoND constructor: requested histogram "
1282  "dimensionality is not supported (too large)");
1283  clear();
1284  }
1285 
1286  template <typename Numeric, class Axis>
1287  HistoND<Numeric, Axis>::HistoND(const Axis& xAxis, const char* title, const char* label)
1288  : title_(title ? title : ""),
1289  accumulatedDataLabel_(label ? label : ""),
1290  data_(Private::makeHistoShape(xAxis)),
1291  overflow_(ArrayShape(1U, 3U)),
1292  weightBuf_(1U),
1293  indexBuf_(2U * 1U),
1294  modCount_(0UL),
1295  dim_(1U) {
1296  axes_.reserve(dim_);
1297  axes_.push_back(xAxis);
1298  clear();
1299  }
1300 
1301  template <typename Numeric, class Axis>
1302  HistoND<Numeric, Axis>::HistoND(const Axis& xAxis, const Axis& yAxis, const char* title, const char* label)
1303  : title_(title ? title : ""),
1304  accumulatedDataLabel_(label ? label : ""),
1305  data_(Private::makeHistoShape(xAxis, yAxis)),
1306  overflow_(ArrayShape(2U, 3U)),
1307  weightBuf_(2U),
1308  indexBuf_(2U * 2U),
1309  modCount_(0UL),
1310  dim_(2U) {
1311  axes_.reserve(dim_);
1312  axes_.push_back(xAxis);
1313  axes_.push_back(yAxis);
1314  clear();
1315  }
1316 
1317  template <typename Numeric, class Axis>
1319  const Axis& xAxis, const Axis& yAxis, const Axis& zAxis, const char* title, const char* label)
1320  : title_(title ? title : ""),
1321  accumulatedDataLabel_(label ? label : ""),
1322  data_(Private::makeHistoShape(xAxis, yAxis, zAxis)),
1323  overflow_(ArrayShape(3U, 3U)),
1324  weightBuf_(3U),
1325  indexBuf_(2U * 3U),
1326  modCount_(0UL),
1327  dim_(3U) {
1328  axes_.reserve(dim_);
1329  axes_.push_back(xAxis);
1330  axes_.push_back(yAxis);
1331  axes_.push_back(zAxis);
1332  clear();
1333  }
1334 
1335  template <typename Numeric, class Axis>
1337  const Axis& xAxis, const Axis& yAxis, const Axis& zAxis, const Axis& tAxis, const char* title, const char* label)
1338  : title_(title ? title : ""),
1339  accumulatedDataLabel_(label ? label : ""),
1340  data_(Private::makeHistoShape(xAxis, yAxis, zAxis, tAxis)),
1341  overflow_(ArrayShape(4U, 3U)),
1342  weightBuf_(4U),
1343  indexBuf_(2U * 4U),
1344  modCount_(0UL),
1345  dim_(4U) {
1346  axes_.reserve(dim_);
1347  axes_.push_back(xAxis);
1348  axes_.push_back(yAxis);
1349  axes_.push_back(zAxis);
1350  axes_.push_back(tAxis);
1351  clear();
1352  }
1353 
1354  template <typename Numeric, class Axis>
1356  const Axis& yAxis,
1357  const Axis& zAxis,
1358  const Axis& tAxis,
1359  const Axis& vAxis,
1360  const char* title,
1361  const char* label)
1362  : title_(title ? title : ""),
1363  accumulatedDataLabel_(label ? label : ""),
1364  data_(Private::makeHistoShape(xAxis, yAxis, zAxis, tAxis, vAxis)),
1365  overflow_(ArrayShape(5U, 3U)),
1366  weightBuf_(5U),
1367  indexBuf_(2U * 5U),
1368  modCount_(0UL),
1369  dim_(5U) {
1370  axes_.reserve(dim_);
1371  axes_.push_back(xAxis);
1372  axes_.push_back(yAxis);
1373  axes_.push_back(zAxis);
1374  axes_.push_back(tAxis);
1375  axes_.push_back(vAxis);
1376  clear();
1377  }
1378 
1379  template <typename Numeric, class Axis>
1381  const BoxND<double>& boundingBox,
1382  const char* title,
1383  const char* label)
1384  : title_(title ? title : ""),
1385  accumulatedDataLabel_(label ? label : ""),
1386  data_(shape),
1387  overflow_(ArrayShape(shape.size(), 3U)),
1388  weightBuf_(shape.size()),
1389  indexBuf_(2U * shape.size()),
1390  modCount_(0UL),
1391  dim_(shape.size()) {
1392  if (boundingBox.size() != dim_)
1394  "In npstat::HistoND constructor: "
1395  "incompatible bounding box dimensionality");
1396  if (dim_ >= CHAR_BIT * sizeof(unsigned long))
1398  "In npstat::HistoND constructor: requested histogram "
1399  "dimensionality is not supported (too large)");
1400  axes_.reserve(dim_);
1401  for (unsigned i = 0; i < dim_; ++i)
1402  axes_.push_back(Axis(shape[i], boundingBox[i].min(), boundingBox[i].max()));
1403  clear();
1404  }
1405 
1406  template <typename Numeric, class Axis>
1407  template <typename Num2, class Functor>
1408  HistoND<Numeric, Axis>::HistoND(const HistoND<Num2, Axis>& r, const Functor& f, const char* title, const char* label)
1409  : title_(title ? title : ""),
1410  accumulatedDataLabel_(label ? label : ""),
1411  data_(r.data_, f),
1412  overflow_(r.overflow_, f),
1413  axes_(r.axes_),
1414  weightBuf_(r.dim_),
1415  indexBuf_(2U * r.dim_),
1416  fillCount_(r.fillCount_),
1417  overCount_(r.overCount_),
1418  modCount_(0UL),
1419  dim_(r.dim_) {}
1420 
1421  template <typename Numeric, class Axis>
1422  template <typename Num2>
1424  const unsigned* indices,
1425  const unsigned nIndices,
1426  const char* title)
1427  : title_(title ? title : ""),
1428  accumulatedDataLabel_(h.accumulatedDataLabel_),
1429  data_(Private::shapeOfASlice(h.axes_, indices, nIndices)),
1430  overflow_(ArrayShape(data_.rank(), 3U)),
1431  axes_(Private::axesOfASlice(h.axes_, indices, nIndices)),
1432  weightBuf_(data_.rank()),
1433  indexBuf_(2U * data_.rank()),
1434  modCount_(0UL),
1435  dim_(data_.rank()) {
1436  clear();
1437  }
1438 
1439  template <typename Numeric, class Axis>
1440  template <typename Num2>
1442  const Axis& newAxis,
1443  const unsigned newAxisNumber,
1444  const char* title)
1445  : title_(title ? title : ""),
1446  accumulatedDataLabel_(h.accumulatedDataLabel_),
1447  data_(Private::shapeWithExtraAxis(h.axes_, newAxis, newAxisNumber)),
1448  overflow_(data_.rank(), 3U),
1449  axes_(Private::addAxis(h.axes_, newAxis, newAxisNumber)),
1450  weightBuf_(data_.rank()),
1451  indexBuf_(2U * data_.rank()),
1452  modCount_(0UL),
1453  dim_(data_.rank()) {
1454  if (dim_ >= CHAR_BIT * sizeof(unsigned long))
1456  "In npstat::HistoND constructor: requested histogram "
1457  "dimensionality is not supported (too large)");
1458  clear();
1459  }
1460 
1461  template <typename Numeric, class Axis>
1462  template <typename Num2>
1464  const RebinType rType,
1465  const unsigned* newBinCounts,
1466  const unsigned lenNewBinCounts,
1467  const double* shifts,
1468  const char* title)
1469  : title_(title ? title : h.title_.c_str()),
1470  accumulatedDataLabel_(h.accumulatedDataLabel_),
1471  data_(newBinCounts, lenNewBinCounts),
1472  overflow_(h.overflow_),
1473  axes_(Private::rebinAxes(h.axes_, newBinCounts, lenNewBinCounts)),
1474  weightBuf_(h.dim_),
1475  indexBuf_(2U * h.dim_),
1476  fillCount_(h.fillCount_),
1477  overCount_(h.overCount_),
1478  modCount_(0UL),
1479  dim_(h.dim_) {
1480  const unsigned long newBins = data_.length();
1481  const Axis* ax = &axes_[0];
1482  unsigned* ubuf = &indexBuf_[0];
1483 
1484  // Fill out the bins of the new histogram
1485  if (rType == SAMPLE) {
1486  double* buf = &weightBuf_[0];
1487  for (unsigned long ibin = 0; ibin < newBins; ++ibin) {
1488  data_.convertLinearIndex(ibin, ubuf, dim_);
1489  if (shifts)
1490  for (unsigned i = 0; i < dim_; ++i)
1491  buf[i] = ax[i].binCenter(ubuf[i]) + shifts[i];
1492  else
1493  for (unsigned i = 0; i < dim_; ++i)
1494  buf[i] = ax[i].binCenter(ubuf[i]);
1495  data_.linearValue(ibin) = h.examine(buf, dim_);
1496  }
1497  } else {
1498  const Numeric zero = Numeric();
1499  BoxND<double> binLimits(dim_);
1500  for (unsigned long ibin = 0; ibin < newBins; ++ibin) {
1501  data_.convertLinearIndex(ibin, ubuf, dim_);
1502  for (unsigned i = 0; i < dim_; ++i)
1503  binLimits[i] = ax[i].binInterval(ubuf[i]);
1504  Numeric& thisBin(data_.linearValue(ibin));
1505  thisBin = zero;
1506  h.accumulateBinsInBox(binLimits, &thisBin, rType == AVERAGE);
1507  }
1508  }
1509  }
1510 
1511  template <typename Numeric, class Axis>
1513  for (unsigned i = 0; i < dim_; ++i)
1514  if (!axes_[i].isUniform())
1515  return false;
1516  return true;
1517  }
1518 
1519  template <typename Numeric, class Axis>
1521  typedef typename PreciseType<Numeric>::type Precise;
1522 
1523  if (dim_ == 0U)
1524  return 0.0;
1525  if (isUniformlyBinned()) {
1526  Precise sum = data_.template sum<Precise>();
1527  return static_cast<double>(sum) * binVolume();
1528  } else {
1529  Precise sum = Precise();
1530  const Numeric* data = data_.data();
1531  const unsigned long len = data_.length();
1532  for (unsigned long i = 0; i < len; ++i)
1533  sum += data[i] * binVolume(i);
1534  return static_cast<double>(sum);
1535  }
1536  }
1537 
1538  template <typename Numeric, class Axis>
1540  BoxND<double> box;
1541  if (dim_) {
1542  box.reserve(dim_);
1543  const Axis* ax = &axes_[0];
1544  for (unsigned i = 0; i < dim_; ++i)
1545  box.push_back(ax[i].interval());
1546  }
1547  return box;
1548  }
1549 
1550  template <typename Numeric, class Axis>
1552  double* coords,
1553  const unsigned lenCoords) const {
1554  if (dim_ != lenCoords)
1556  "In npstat::HistoND::binCenter: "
1557  "incompatible input point dimensionality");
1558  if (dim_) {
1559  assert(coords);
1560  data_.convertLinearIndex(binNumber, &indexBuf_[0], dim_);
1561  const Axis* ax = &axes_[0];
1562  for (unsigned i = 0; i < dim_; ++i)
1563  coords[i] = ax[i].binCenter(indexBuf_[i]);
1564  }
1565  }
1566 
1567  template <typename Numeric, class Axis>
1568  template <class Point>
1569  void HistoND<Numeric, Axis>::allBinCenters(std::vector<Point>* centers) const {
1570  assert(centers);
1571  centers->clear();
1572  const unsigned long len = data_.length();
1573  centers->reserve(len);
1574  unsigned* ibuf = &indexBuf_[0];
1575  const Axis* ax = &axes_[0];
1576  Point center;
1577  if (center.size() < dim_)
1579  "In npstat::HistoND::allBinCenters: "
1580  "incompatible point dimensionality (too small)");
1581  typename Point::value_type* cdat = &center[0];
1582 
1583  for (unsigned long i = 0; i < len; ++i) {
1584  data_.convertLinearIndex(i, ibuf, dim_);
1585  for (unsigned idim = 0; idim < dim_; ++idim)
1586  cdat[idim] = ax[idim].binCenter(ibuf[idim]);
1587  centers->push_back(center);
1588  }
1589  }
1590 
1591  template <typename Numeric, class Axis>
1592  void HistoND<Numeric, Axis>::binBox(const unsigned long binNumber, BoxND<double>* box) const {
1593  assert(box);
1594  box->clear();
1595  if (dim_) {
1596  box->reserve(dim_);
1597  data_.convertLinearIndex(binNumber, &indexBuf_[0], dim_);
1598  const Axis* ax = &axes_[0];
1599  for (unsigned i = 0; i < dim_; ++i)
1600  box->push_back(ax[i].binInterval(indexBuf_[i]));
1601  }
1602  }
1603 
1604  template <typename Numeric, class Axis>
1605  inline bool HistoND<Numeric, Axis>::isSameData(const HistoND& r) const {
1606  return dim_ == r.dim_ && overflow_ == r.overflow_ && data_ == r.data_;
1607  }
1608 
1609  template <typename Numeric, class Axis>
1610  inline bool HistoND<Numeric, Axis>::operator==(const HistoND& r) const {
1611  return dim_ == r.dim_ && fillCount_ == r.fillCount_ && overCount_ == r.overCount_ && title_ == r.title_ &&
1612  accumulatedDataLabel_ == r.accumulatedDataLabel_ && axes_ == r.axes_ && overflow_ == r.overflow_ &&
1613  data_ == r.data_;
1614  }
1615 
1616  template <typename Numeric, class Axis>
1617  inline bool HistoND<Numeric, Axis>::operator!=(const HistoND& r) const {
1618  return !(*this == r);
1619  }
1620 
1621  template <typename Numeric, class Axis>
1622  double HistoND<Numeric, Axis>::binVolume(const unsigned long binNumber) const {
1623  double v = 1.0;
1624  if (dim_) {
1625  data_.convertLinearIndex(binNumber, &indexBuf_[0], dim_);
1626  const Axis* ax = &axes_[0];
1627  for (unsigned i = 0; i < dim_; ++i)
1628  v *= ax[i].binWidth(indexBuf_[i]);
1629  }
1630  return v;
1631  }
1632 
1633  template <typename Numeric, class Axis>
1635  double v = 1.0;
1636  if (dim_) {
1637  const Axis* ax = &axes_[0];
1638  for (unsigned i = 0; i < dim_; ++i)
1639  v *= (ax[i].max() - ax[i].min());
1640  }
1641  return v;
1642  }
1643 
1644  template <typename Numeric, class Axis>
1645  template <typename Num2>
1646  void HistoND<Numeric, Axis>::fill(const double* coords, const unsigned coordLength, const Num2& w) {
1647  if (coordLength != dim_)
1649  "In npstat::HistoND::fill: "
1650  "incompatible input point dimensionality");
1651  if (coordLength) {
1652  assert(coords);
1653  unsigned* idx = &indexBuf_[0];
1654  unsigned* over = idx + dim_;
1655  const Axis* ax = &axes_[0];
1656  unsigned overflown = 0U;
1657  for (unsigned i = 0; i < dim_; ++i) {
1658  over[i] = ax[i].overflowIndex(coords[i], idx + i);
1659  overflown |= (over[i] - 1U);
1660  }
1661  if (overflown) {
1662  overflow_.value(over, dim_) += w;
1663  ++overCount_;
1664  } else
1665  data_.value(idx, dim_) += w;
1666  } else
1667  data_() += w;
1668  ++fillCount_;
1669  ++modCount_;
1670  }
1671 
1672  template <typename Numeric, class Axis>
1673  template <typename Num2, class Functor>
1674  void HistoND<Numeric, Axis>::dispatch(const double* coords, const unsigned coordLength, Num2& w, Functor& f) {
1675  if (coordLength != dim_)
1677  "In npstat::HistoND::dispatch: "
1678  "incompatible input point dimensionality");
1679  if (coordLength) {
1680  assert(coords);
1681  unsigned* idx = &indexBuf_[0];
1682  unsigned* over = idx + dim_;
1683  const Axis* ax = &axes_[0];
1684  unsigned overflown = 0U;
1685  for (unsigned i = 0; i < dim_; ++i) {
1686  over[i] = ax[i].overflowIndex(coords[i], idx + i);
1687  overflown |= (over[i] - 1U);
1688  }
1689  if (overflown)
1690  f(overflow_.value(over, dim_), w);
1691  else
1692  f(data_.value(idx, dim_), w);
1693  } else
1694  f(data_(), w);
1695  ++modCount_;
1696  }
1697 
1698  template <typename Numeric, class Axis>
1699  const Numeric& HistoND<Numeric, Axis>::examine(const double* coords, const unsigned coordLength) const {
1700  if (coordLength != dim_)
1702  "In npstat::HistoND::examine: "
1703  "incompatible input point dimensionality");
1704  if (coordLength) {
1705  assert(coords);
1706  unsigned* idx = &indexBuf_[0];
1707  unsigned* over = idx + dim_;
1708  const Axis* ax = &axes_[0];
1709  unsigned overflown = 0U;
1710  for (unsigned i = 0; i < dim_; ++i) {
1711  over[i] = ax[i].overflowIndex(coords[i], idx + i);
1712  overflown |= (over[i] - 1U);
1713  }
1714  if (overflown)
1715  return overflow_.value(over, dim_);
1716  else
1717  return data_.value(idx, dim_);
1718  } else
1719  return data_();
1720  }
1721 
1722  template <typename Numeric, class Axis>
1723  const Numeric& HistoND<Numeric, Axis>::closestBin(const double* coords, const unsigned coordLength) const {
1724  if (coordLength != dim_)
1726  "In npstat::HistoND::closestBin: "
1727  "incompatible input point dimensionality");
1728  if (coordLength) {
1729  assert(coords);
1730  unsigned* idx = &indexBuf_[0];
1731  const Axis* ax = &axes_[0];
1732  for (unsigned i = 0; i < dim_; ++i)
1733  idx[i] = ax[i].closestValidBin(coords[i]);
1734  return data_.value(idx, dim_);
1735  } else
1736  return data_();
1737  }
1738 
1739  template <typename Numeric, class Axis>
1740  template <typename Num2>
1742  const double* weights = &weightBuf_[0];
1743  const unsigned* cell = &indexBuf_[0];
1744  const unsigned long* strides = data_.strides();
1745  const unsigned long maxcycle = 1UL << dim_;
1746  for (unsigned long icycle = 0; icycle < maxcycle; ++icycle) {
1747  double w = 1.0;
1748  unsigned long icell = 0UL;
1749  for (unsigned i = 0; i < dim_; ++i) {
1750  if (icycle & (1UL << i)) {
1751  w *= (1.0 - weights[i]);
1752  icell += strides[i] * (cell[i] + 1U);
1753  } else {
1754  w *= weights[i];
1755  icell += strides[i] * cell[i];
1756  }
1757  }
1758  data_.linearValue(icell) += (value * w);
1759  }
1760  }
1761 
1762  template <typename Numeric, class Axis>
1763  template <typename Num2>
1764  void HistoND<Numeric, Axis>::fillC(const double* coords, const unsigned coordLength, const Num2& w) {
1765  if (coordLength != dim_)
1767  "In npstat::HistoND::fillC: "
1768  "incompatible input point dimensionality");
1769  if (coordLength) {
1770  assert(coords);
1771  double* wg = &weightBuf_[0];
1772  unsigned* idx = &indexBuf_[0];
1773  unsigned* over = idx + dim_;
1774  const Axis* ax = &axes_[0];
1775  unsigned overflown = 0U;
1776  for (unsigned i = 0; i < dim_; ++i) {
1777  over[i] = ax[i].overflowIndexWeighted(coords[i], idx + i, wg + i);
1778  overflown |= (over[i] - 1U);
1779  }
1780  if (overflown) {
1781  overflow_.value(over, dim_) += w;
1782  ++overCount_;
1783  } else
1784  fillPreservingCentroid(w);
1785  } else
1786  data_() += w;
1787  ++fillCount_;
1788  ++modCount_;
1789  }
1790 
1791  template <typename Numeric, class Axis>
1792  template <typename Num2>
1793  inline void HistoND<Numeric, Axis>::fill(const Num2& w) {
1794  if (dim_)
1795  Private::h_badargs("fill");
1796  data_() += w;
1797  ++fillCount_;
1798  ++modCount_;
1799  }
1800 
1801  template <typename Numeric, class Axis>
1802  template <typename Num2, class Functor>
1803  inline void HistoND<Numeric, Axis>::dispatch(Num2& w, Functor& f) {
1804  if (dim_)
1805  Private::h_badargs("dispatch");
1806  f(data_(), w);
1807  ++modCount_;
1808  }
1809 
1810  template <typename Numeric, class Axis>
1811  template <typename Num2>
1812  inline void HistoND<Numeric, Axis>::fillC(const Num2& w) {
1813  if (dim_)
1814  Private::h_badargs("fillC");
1815  data_() += w;
1816  ++fillCount_;
1817  ++modCount_;
1818  }
1819 
1820  template <typename Numeric, class Axis>
1821  inline const Numeric& HistoND<Numeric, Axis>::examine() const {
1822  if (dim_)
1823  Private::h_badargs("examine");
1824  return data_();
1825  }
1826 
1827  template <typename Numeric, class Axis>
1828  inline const Numeric& HistoND<Numeric, Axis>::closestBin() const {
1829  if (dim_)
1830  Private::h_badargs("closestBin");
1831  return data_();
1832  }
1833 
1834  template <typename Numeric, class Axis>
1835  template <typename Num2>
1836  void HistoND<Numeric, Axis>::fill(const double x0, const Num2& w) {
1837  if (dim_ != 1U)
1838  Private::h_badargs("fill");
1839  unsigned i0 = 0;
1840  const unsigned ov0 = axes_[0].overflowIndex(x0, &i0);
1841  if (ov0 == 1U)
1842  data_(i0) += w;
1843  else {
1844  overflow_(ov0) += w;
1845  ++overCount_;
1846  }
1847  ++fillCount_;
1848  ++modCount_;
1849  }
1850 
1851  template <typename Numeric, class Axis>
1852  template <typename Num2, class Functor>
1853  void HistoND<Numeric, Axis>::dispatch(const double x0, Num2& w, Functor& f) {
1854  if (dim_ != 1U)
1855  Private::h_badargs("dispatch");
1856  unsigned i0 = 0;
1857  const unsigned ov0 = axes_[0].overflowIndex(x0, &i0);
1858  if (ov0 == 1U)
1859  f(data_(i0), w);
1860  else
1861  f(overflow_(ov0), w);
1862  ++modCount_;
1863  }
1864 
1865  template <typename Numeric, class Axis>
1866  template <typename Num2>
1867  void HistoND<Numeric, Axis>::fillC(const double x0, const Num2& w) {
1868  if (dim_ != 1U)
1869  Private::h_badargs("fillC");
1870  double* wg = &weightBuf_[0];
1871  unsigned* idx = &indexBuf_[0];
1872  const unsigned ov0 = axes_[0].overflowIndexWeighted(x0, idx, wg);
1873  if (ov0 == 1U)
1874  fillPreservingCentroid(w);
1875  else {
1876  overflow_(ov0) += w;
1877  ++overCount_;
1878  }
1879  ++fillCount_;
1880  ++modCount_;
1881  }
1882 
1883  template <typename Numeric, class Axis>
1884  inline const Numeric& HistoND<Numeric, Axis>::examine(const double x0) const {
1885  if (dim_ != 1U)
1886  Private::h_badargs("examine");
1887  unsigned i0 = 0;
1888  const unsigned ov0 = axes_[0].overflowIndex(x0, &i0);
1889  if (ov0 == 1U)
1890  return data_(i0);
1891  else
1892  return overflow_(ov0);
1893  }
1894 
1895  template <typename Numeric, class Axis>
1896  inline const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0) const {
1897  if (dim_ != 1U)
1898  Private::h_badargs("closestBin");
1899  const unsigned i0 = axes_[0].closestValidBin(x0);
1900  return data_(i0);
1901  }
1902 
1903  template <typename Numeric, class Axis>
1904  template <typename Num2>
1905  void HistoND<Numeric, Axis>::fill(const double x0, const double x1, const Num2& w) {
1906  if (dim_ != 2U)
1907  Private::h_badargs("fill");
1908  unsigned i0 = 0, i1 = 0;
1909  const Axis* ax = &axes_[0];
1910  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
1911  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
1912  if (o0 == 1U && o1 == 1U)
1913  data_(i0, i1) += w;
1914  else {
1915  overflow_(o0, o1) += w;
1916  ++overCount_;
1917  }
1918  ++fillCount_;
1919  ++modCount_;
1920  }
1921 
1922  template <typename Numeric, class Axis>
1923  template <typename Num2, class Functor>
1924  void HistoND<Numeric, Axis>::dispatch(const double x0, const double x1, Num2& w, Functor& f) {
1925  if (dim_ != 2U)
1926  Private::h_badargs("dispatch");
1927  unsigned i0 = 0, i1 = 0;
1928  const Axis* ax = &axes_[0];
1929  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
1930  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
1931  if (o0 == 1U && o1 == 1U)
1932  f(data_(i0, i1), w);
1933  else
1934  f(overflow_(o0, o1), w);
1935  ++modCount_;
1936  }
1937 
1938  template <typename Numeric, class Axis>
1939  template <typename Num2>
1940  void HistoND<Numeric, Axis>::fillC(const double x0, const double x1, const Num2& w) {
1941  if (dim_ != 2U)
1942  Private::h_badargs("fillC");
1943  double* wg = &weightBuf_[0];
1944  unsigned* idx = &indexBuf_[0];
1945  const Axis* ax = &axes_[0];
1946  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
1947  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
1948  if (o0 == 1U && o1 == 1U)
1949  fillPreservingCentroid(w);
1950  else {
1951  overflow_(o0, o1) += w;
1952  ++overCount_;
1953  }
1954  ++fillCount_;
1955  ++modCount_;
1956  }
1957 
1958  template <typename Numeric, class Axis>
1959  const Numeric& HistoND<Numeric, Axis>::examine(const double x0, const double x1) const {
1960  if (dim_ != 2U)
1961  Private::h_badargs("examine");
1962  unsigned i0 = 0, i1 = 0;
1963  const Axis* ax = &axes_[0];
1964  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
1965  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
1966  if (o0 == 1U && o1 == 1U)
1967  return data_(i0, i1);
1968  else
1969  return overflow_(o0, o1);
1970  }
1971 
1972  template <typename Numeric, class Axis>
1973  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0, const double x1) const {
1974  if (dim_ != 2U)
1975  Private::h_badargs("closestBin");
1976  const Axis* ax = &axes_[0];
1977  const unsigned i0 = ax[0].closestValidBin(x0);
1978  const unsigned i1 = ax[1].closestValidBin(x1);
1979  return data_(i0, i1);
1980  }
1981 
1982  template <typename Numeric, class Axis>
1983  template <typename Num2>
1984  void HistoND<Numeric, Axis>::fill(const double x0, const double x1, const double x2, const Num2& w) {
1985  if (dim_ != 3U)
1986  Private::h_badargs("fill");
1987  unsigned i0 = 0, i1 = 0, i2 = 0;
1988  const Axis* ax = &axes_[0];
1989  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
1990  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
1991  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
1992  if (o0 == 1U && o1 == 1U && o2 == 1U)
1993  data_(i0, i1, i2) += w;
1994  else {
1995  overflow_(o0, o1, o2) += w;
1996  ++overCount_;
1997  }
1998  ++fillCount_;
1999  ++modCount_;
2000  }
2001 
2002  template <typename Numeric, class Axis>
2003  template <typename Num2, class Functor>
2004  void HistoND<Numeric, Axis>::dispatch(const double x0, const double x1, const double x2, Num2& w, Functor& f) {
2005  if (dim_ != 3U)
2006  Private::h_badargs("dispatch");
2007  unsigned i0 = 0, i1 = 0, i2 = 0;
2008  const Axis* ax = &axes_[0];
2009  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2010  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2011  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2012  if (o0 == 1U && o1 == 1U && o2 == 1U)
2013  f(data_(i0, i1, i2), w);
2014  else
2015  f(overflow_(o0, o1, o2), w);
2016  ++modCount_;
2017  }
2018 
2019  template <typename Numeric, class Axis>
2020  template <typename Num2>
2021  void HistoND<Numeric, Axis>::fillC(const double x0, const double x1, const double x2, const Num2& w) {
2022  if (dim_ != 3U)
2023  Private::h_badargs("fillC");
2024  double* wg = &weightBuf_[0];
2025  unsigned* idx = &indexBuf_[0];
2026  const Axis* ax = &axes_[0];
2027  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2028  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2029  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2030  if (o0 == 1U && o1 == 1U && o2 == 1U)
2031  fillPreservingCentroid(w);
2032  else {
2033  overflow_(o0, o1, o2) += w;
2034  ++overCount_;
2035  }
2036  ++fillCount_;
2037  ++modCount_;
2038  }
2039 
2040  template <typename Numeric, class Axis>
2041  const Numeric& HistoND<Numeric, Axis>::examine(const double x0, const double x1, const double x2) const {
2042  if (dim_ != 3U)
2043  Private::h_badargs("examine");
2044  unsigned i0 = 0, i1 = 0, i2 = 0;
2045  const Axis* ax = &axes_[0];
2046  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2047  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2048  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2049  if (o0 == 1U && o1 == 1U && o2 == 1U)
2050  return data_(i0, i1, i2);
2051  else
2052  return overflow_(o0, o1, o2);
2053  }
2054 
2055  template <typename Numeric, class Axis>
2056  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0, const double x1, const double x2) const {
2057  if (dim_ != 3U)
2058  Private::h_badargs("closestBin");
2059  const Axis* ax = &axes_[0];
2060  const unsigned i0 = ax[0].closestValidBin(x0);
2061  const unsigned i1 = ax[1].closestValidBin(x1);
2062  const unsigned i2 = ax[2].closestValidBin(x2);
2063  return data_(i0, i1, i2);
2064  }
2065 
2066  template <typename Numeric, class Axis>
2067  template <typename Num2>
2068  void HistoND<Numeric, Axis>::fill(const double x0, const double x1, const double x2, const double x3, const Num2& w) {
2069  if (dim_ != 4U)
2070  Private::h_badargs("fill");
2071  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0;
2072  const Axis* ax = &axes_[0];
2073  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2074  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2075  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2076  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2077  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U)
2078  data_(i0, i1, i2, i3) += w;
2079  else {
2080  overflow_(o0, o1, o2, o3) += w;
2081  ++overCount_;
2082  }
2083  ++fillCount_;
2084  ++modCount_;
2085  }
2086 
2087  template <typename Numeric, class Axis>
2088  template <typename Num2, class Functor>
2090  const double x0, const double x1, const double x2, const double x3, Num2& w, Functor& f) {
2091  if (dim_ != 4U)
2092  Private::h_badargs("dispatch");
2093  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0;
2094  const Axis* ax = &axes_[0];
2095  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2096  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2097  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2098  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2099  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U)
2100  f(data_(i0, i1, i2, i3), w);
2101  else
2102  f(overflow_(o0, o1, o2, o3), w);
2103  ++modCount_;
2104  }
2105 
2106  template <typename Numeric, class Axis>
2107  template <typename Num2>
2108  void HistoND<Numeric, Axis>::fillC(const double x0, const double x1, const double x2, const double x3, const Num2& w) {
2109  if (dim_ != 4U)
2110  Private::h_badargs("fillC");
2111  double* wg = &weightBuf_[0];
2112  unsigned* idx = &indexBuf_[0];
2113  const Axis* ax = &axes_[0];
2114  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2115  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2116  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2117  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2118  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U)
2119  fillPreservingCentroid(w);
2120  else {
2121  overflow_(o0, o1, o2, o3) += w;
2122  ++overCount_;
2123  }
2124  ++fillCount_;
2125  ++modCount_;
2126  }
2127 
2128  template <typename Numeric, class Axis>
2129  const Numeric& HistoND<Numeric, Axis>::examine(const double x0,
2130  const double x1,
2131  const double x2,
2132  const double x3) const {
2133  if (dim_ != 4U)
2134  Private::h_badargs("examine");
2135  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0;
2136  const Axis* ax = &axes_[0];
2137  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2138  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2139  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2140  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2141  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U)
2142  return data_(i0, i1, i2, i3);
2143  else
2144  return overflow_(o0, o1, o2, o3);
2145  }
2146 
2147  template <typename Numeric, class Axis>
2148  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0,
2149  const double x1,
2150  const double x2,
2151  const double x3) const {
2152  if (dim_ != 4U)
2153  Private::h_badargs("closestBin");
2154  const Axis* ax = &axes_[0];
2155  const unsigned i0 = ax[0].closestValidBin(x0);
2156  const unsigned i1 = ax[1].closestValidBin(x1);
2157  const unsigned i2 = ax[2].closestValidBin(x2);
2158  const unsigned i3 = ax[3].closestValidBin(x3);
2159  return data_(i0, i1, i2, i3);
2160  }
2161 
2162  template <typename Numeric, class Axis>
2163  template <typename Num2>
2165  const double x0, const double x1, const double x2, const double x3, const double x4, const Num2& w) {
2166  if (dim_ != 5U)
2167  Private::h_badargs("fill");
2168  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0;
2169  const Axis* ax = &axes_[0];
2170  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2171  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2172  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2173  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2174  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2175  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U)
2176  data_(i0, i1, i2, i3, i4) += w;
2177  else {
2178  overflow_(o0, o1, o2, o3, o4) += w;
2179  ++overCount_;
2180  }
2181  ++fillCount_;
2182  ++modCount_;
2183  }
2184 
2185  template <typename Numeric, class Axis>
2186  template <typename Num2, class Functor>
2188  const double x0, const double x1, const double x2, const double x3, const double x4, Num2& w, Functor& f) {
2189  if (dim_ != 5U)
2190  Private::h_badargs("dispatch");
2191  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0;
2192  const Axis* ax = &axes_[0];
2193  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2194  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2195  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2196  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2197  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2198  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U)
2199  f(data_(i0, i1, i2, i3, i4), w);
2200  else
2201  f(overflow_(o0, o1, o2, o3, o4), w);
2202  ++modCount_;
2203  }
2204 
2205  template <typename Numeric, class Axis>
2206  template <typename Num2>
2208  const double x0, const double x1, const double x2, const double x3, const double x4, const Num2& w) {
2209  if (dim_ != 5U)
2210  Private::h_badargs("fillC");
2211  double* wg = &weightBuf_[0];
2212  unsigned* idx = &indexBuf_[0];
2213  const Axis* ax = &axes_[0];
2214  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2215  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2216  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2217  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2218  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2219  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U)
2220  fillPreservingCentroid(w);
2221  else {
2222  overflow_(o0, o1, o2, o3, o4) += w;
2223  ++overCount_;
2224  }
2225  ++fillCount_;
2226  ++modCount_;
2227  }
2228 
2229  template <typename Numeric, class Axis>
2231  const double x0, const double x1, const double x2, const double x3, const double x4) const {
2232  if (dim_ != 5U)
2233  Private::h_badargs("examine");
2234  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0;
2235  const Axis* ax = &axes_[0];
2236  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2237  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2238  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2239  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2240  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2241  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U)
2242  return data_(i0, i1, i2, i3, i4);
2243  else
2244  return overflow_(o0, o1, o2, o3, o4);
2245  }
2246 
2247  template <typename Numeric, class Axis>
2249  const double x0, const double x1, const double x2, const double x3, const double x4) const {
2250  if (dim_ != 5U)
2251  Private::h_badargs("closestBin");
2252  const Axis* ax = &axes_[0];
2253  const unsigned i0 = ax[0].closestValidBin(x0);
2254  const unsigned i1 = ax[1].closestValidBin(x1);
2255  const unsigned i2 = ax[2].closestValidBin(x2);
2256  const unsigned i3 = ax[3].closestValidBin(x3);
2257  const unsigned i4 = ax[4].closestValidBin(x4);
2258  return data_(i0, i1, i2, i3, i4);
2259  }
2260 
2261  template <typename Numeric, class Axis>
2262  template <typename Num2>
2263  void HistoND<Numeric, Axis>::fill(const double x0,
2264  const double x1,
2265  const double x2,
2266  const double x3,
2267  const double x4,
2268  const double x5,
2269  const Num2& w) {
2270  if (dim_ != 6U)
2271  Private::h_badargs("fill");
2272  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0;
2273  const Axis* ax = &axes_[0];
2274  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2275  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2276  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2277  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2278  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2279  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2280  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U)
2281  data_(i0, i1, i2, i3, i4, i5) += w;
2282  else {
2283  overflow_(o0, o1, o2, o3, o4, o5) += w;
2284  ++overCount_;
2285  }
2286  ++fillCount_;
2287  ++modCount_;
2288  }
2289 
2290  template <typename Numeric, class Axis>
2291  template <typename Num2, class Functor>
2292  void HistoND<Numeric, Axis>::dispatch(const double x0,
2293  const double x1,
2294  const double x2,
2295  const double x3,
2296  const double x4,
2297  const double x5,
2298  Num2& w,
2299  Functor& f) {
2300  if (dim_ != 6U)
2301  Private::h_badargs("dispatch");
2302  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0;
2303  const Axis* ax = &axes_[0];
2304  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2305  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2306  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2307  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2308  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2309  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2310  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U)
2311  f(data_(i0, i1, i2, i3, i4, i5), w);
2312  else
2313  f(overflow_(o0, o1, o2, o3, o4, o5), w);
2314  ++modCount_;
2315  }
2316 
2317  template <typename Numeric, class Axis>
2318  template <typename Num2>
2319  void HistoND<Numeric, Axis>::fillC(const double x0,
2320  const double x1,
2321  const double x2,
2322  const double x3,
2323  const double x4,
2324  const double x5,
2325  const Num2& w) {
2326  if (dim_ != 6U)
2327  Private::h_badargs("fillC");
2328  double* wg = &weightBuf_[0];
2329  unsigned* idx = &indexBuf_[0];
2330  const Axis* ax = &axes_[0];
2331  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2332  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2333  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2334  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2335  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2336  const unsigned o5 = ax[5].overflowIndexWeighted(x5, idx + 5, wg + 5);
2337  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U)
2338  fillPreservingCentroid(w);
2339  else {
2340  overflow_(o0, o1, o2, o3, o4, o5) += w;
2341  ++overCount_;
2342  }
2343  ++fillCount_;
2344  ++modCount_;
2345  }
2346 
2347  template <typename Numeric, class Axis>
2349  const double x0, const double x1, const double x2, const double x3, const double x4, const double x5) const {
2350  if (dim_ != 6U)
2351  Private::h_badargs("examine");
2352  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0;
2353  const Axis* ax = &axes_[0];
2354  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2355  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2356  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2357  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2358  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2359  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2360  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U)
2361  return data_(i0, i1, i2, i3, i4, i5);
2362  else
2363  return overflow_(o0, o1, o2, o3, o4, o5);
2364  }
2365 
2366  template <typename Numeric, class Axis>
2368  const double x0, const double x1, const double x2, const double x3, const double x4, const double x5) const {
2369  if (dim_ != 6U)
2370  Private::h_badargs("closestBin");
2371  const Axis* ax = &axes_[0];
2372  const unsigned i0 = ax[0].closestValidBin(x0);
2373  const unsigned i1 = ax[1].closestValidBin(x1);
2374  const unsigned i2 = ax[2].closestValidBin(x2);
2375  const unsigned i3 = ax[3].closestValidBin(x3);
2376  const unsigned i4 = ax[4].closestValidBin(x4);
2377  const unsigned i5 = ax[5].closestValidBin(x5);
2378  return data_(i0, i1, i2, i3, i4, i5);
2379  }
2380 
2381  template <typename Numeric, class Axis>
2382  template <typename Num2>
2383  void HistoND<Numeric, Axis>::fill(const double x0,
2384  const double x1,
2385  const double x2,
2386  const double x3,
2387  const double x4,
2388  const double x5,
2389  const double x6,
2390  const Num2& w) {
2391  if (dim_ != 7U)
2392  Private::h_badargs("fill");
2393  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0;
2394  const Axis* ax = &axes_[0];
2395  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2396  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2397  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2398  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2399  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2400  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2401  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2402  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U)
2403  data_(i0, i1, i2, i3, i4, i5, i6) += w;
2404  else {
2405  overflow_(o0, o1, o2, o3, o4, o5, o6) += w;
2406  ++overCount_;
2407  }
2408  ++fillCount_;
2409  ++modCount_;
2410  }
2411 
2412  template <typename Numeric, class Axis>
2413  template <typename Num2, class Functor>
2414  void HistoND<Numeric, Axis>::dispatch(const double x0,
2415  const double x1,
2416  const double x2,
2417  const double x3,
2418  const double x4,
2419  const double x5,
2420  const double x6,
2421  Num2& w,
2422  Functor& f) {
2423  if (dim_ != 7U)
2424  Private::h_badargs("dispatch");
2425  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0;
2426  const Axis* ax = &axes_[0];
2427  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2428  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2429  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2430  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2431  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2432  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2433  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2434  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U)
2435  f(data_(i0, i1, i2, i3, i4, i5, i6), w);
2436  else
2437  f(overflow_(o0, o1, o2, o3, o4, o5, o6), w);
2438  ++modCount_;
2439  }
2440 
2441  template <typename Numeric, class Axis>
2442  template <typename Num2>
2443  void HistoND<Numeric, Axis>::fillC(const double x0,
2444  const double x1,
2445  const double x2,
2446  const double x3,
2447  const double x4,
2448  const double x5,
2449  const double x6,
2450  const Num2& w) {
2451  if (dim_ != 7U)
2452  Private::h_badargs("fillC");
2453  double* wg = &weightBuf_[0];
2454  unsigned* idx = &indexBuf_[0];
2455  const Axis* ax = &axes_[0];
2456  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2457  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2458  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2459  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2460  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2461  const unsigned o5 = ax[5].overflowIndexWeighted(x5, idx + 5, wg + 5);
2462  const unsigned o6 = ax[6].overflowIndexWeighted(x6, idx + 6, wg + 6);
2463  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U)
2464  fillPreservingCentroid(w);
2465  else {
2466  overflow_(o0, o1, o2, o3, o4, o5, o6) += w;
2467  ++overCount_;
2468  }
2469  ++fillCount_;
2470  ++modCount_;
2471  }
2472 
2473  template <typename Numeric, class Axis>
2474  const Numeric& HistoND<Numeric, Axis>::examine(const double x0,
2475  const double x1,
2476  const double x2,
2477  const double x3,
2478  const double x4,
2479  const double x5,
2480  const double x6) const {
2481  if (dim_ != 7U)
2482  Private::h_badargs("examine");
2483  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0;
2484  const Axis* ax = &axes_[0];
2485  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2486  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2487  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2488  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2489  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2490  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2491  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2492  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U)
2493  return data_(i0, i1, i2, i3, i4, i5, i6);
2494  else
2495  return overflow_(o0, o1, o2, o3, o4, o5, o6);
2496  }
2497 
2498  template <typename Numeric, class Axis>
2499  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0,
2500  const double x1,
2501  const double x2,
2502  const double x3,
2503  const double x4,
2504  const double x5,
2505  const double x6) const {
2506  if (dim_ != 7U)
2507  Private::h_badargs("closestBin");
2508  const Axis* ax = &axes_[0];
2509  const unsigned i0 = ax[0].closestValidBin(x0);
2510  const unsigned i1 = ax[1].closestValidBin(x1);
2511  const unsigned i2 = ax[2].closestValidBin(x2);
2512  const unsigned i3 = ax[3].closestValidBin(x3);
2513  const unsigned i4 = ax[4].closestValidBin(x4);
2514  const unsigned i5 = ax[5].closestValidBin(x5);
2515  const unsigned i6 = ax[6].closestValidBin(x6);
2516  return data_(i0, i1, i2, i3, i4, i5, i6);
2517  }
2518 
2519  template <typename Numeric, class Axis>
2520  template <typename Num2>
2521  void HistoND<Numeric, Axis>::fill(const double x0,
2522  const double x1,
2523  const double x2,
2524  const double x3,
2525  const double x4,
2526  const double x5,
2527  const double x6,
2528  const double x7,
2529  const Num2& w) {
2530  if (dim_ != 8U)
2531  Private::h_badargs("fill");
2532  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0;
2533  const Axis* ax = &axes_[0];
2534  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2535  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2536  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2537  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2538  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2539  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2540  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2541  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2542  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U)
2543  data_(i0, i1, i2, i3, i4, i5, i6, i7) += w;
2544  else {
2545  overflow_(o0, o1, o2, o3, o4, o5, o6, o7) += w;
2546  ++overCount_;
2547  }
2548  ++fillCount_;
2549  ++modCount_;
2550  }
2551 
2552  template <typename Numeric, class Axis>
2553  template <typename Num2, class Functor>
2554  void HistoND<Numeric, Axis>::dispatch(const double x0,
2555  const double x1,
2556  const double x2,
2557  const double x3,
2558  const double x4,
2559  const double x5,
2560  const double x6,
2561  const double x7,
2562  Num2& w,
2563  Functor& f) {
2564  if (dim_ != 8U)
2565  Private::h_badargs("dispatch");
2566  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0;
2567  const Axis* ax = &axes_[0];
2568  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2569  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2570  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2571  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2572  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2573  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2574  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2575  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2576  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U)
2577  f(data_(i0, i1, i2, i3, i4, i5, i6, i7), w);
2578  else
2579  f(overflow_(o0, o1, o2, o3, o4, o5, o6, o7), w);
2580  ++modCount_;
2581  }
2582 
2583  template <typename Numeric, class Axis>
2584  template <typename Num2>
2585  void HistoND<Numeric, Axis>::fillC(const double x0,
2586  const double x1,
2587  const double x2,
2588  const double x3,
2589  const double x4,
2590  const double x5,
2591  const double x6,
2592  const double x7,
2593  const Num2& w) {
2594  if (dim_ != 8U)
2595  Private::h_badargs("fillC");
2596  double* wg = &weightBuf_[0];
2597  unsigned* idx = &indexBuf_[0];
2598  const Axis* ax = &axes_[0];
2599  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2600  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2601  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2602  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2603  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2604  const unsigned o5 = ax[5].overflowIndexWeighted(x5, idx + 5, wg + 5);
2605  const unsigned o6 = ax[6].overflowIndexWeighted(x6, idx + 6, wg + 6);
2606  const unsigned o7 = ax[7].overflowIndexWeighted(x7, idx + 7, wg + 7);
2607  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U)
2608  fillPreservingCentroid(w);
2609  else {
2610  overflow_(o0, o1, o2, o3, o4, o5, o6, o7) += w;
2611  ++overCount_;
2612  }
2613  ++fillCount_;
2614  ++modCount_;
2615  }
2616 
2617  template <typename Numeric, class Axis>
2618  const Numeric& HistoND<Numeric, Axis>::examine(const double x0,
2619  const double x1,
2620  const double x2,
2621  const double x3,
2622  const double x4,
2623  const double x5,
2624  const double x6,
2625  const double x7) const {
2626  if (dim_ != 8U)
2627  Private::h_badargs("examine");
2628  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0;
2629  const Axis* ax = &axes_[0];
2630  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2631  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2632  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2633  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2634  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2635  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2636  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2637  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2638  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U)
2639  return data_(i0, i1, i2, i3, i4, i5, i6, i7);
2640  else
2641  return overflow_(o0, o1, o2, o3, o4, o5, o6, o7);
2642  }
2643 
2644  template <typename Numeric, class Axis>
2645  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0,
2646  const double x1,
2647  const double x2,
2648  const double x3,
2649  const double x4,
2650  const double x5,
2651  const double x6,
2652  const double x7) const {
2653  if (dim_ != 8U)
2654  Private::h_badargs("closestBin");
2655  const Axis* ax = &axes_[0];
2656  const unsigned i0 = ax[0].closestValidBin(x0);
2657  const unsigned i1 = ax[1].closestValidBin(x1);
2658  const unsigned i2 = ax[2].closestValidBin(x2);
2659  const unsigned i3 = ax[3].closestValidBin(x3);
2660  const unsigned i4 = ax[4].closestValidBin(x4);
2661  const unsigned i5 = ax[5].closestValidBin(x5);
2662  const unsigned i6 = ax[6].closestValidBin(x6);
2663  const unsigned i7 = ax[7].closestValidBin(x7);
2664  return data_(i0, i1, i2, i3, i4, i5, i6, i7);
2665  }
2666 
2667  template <typename Numeric, class Axis>
2668  template <typename Num2>
2669  void HistoND<Numeric, Axis>::fill(const double x0,
2670  const double x1,
2671  const double x2,
2672  const double x3,
2673  const double x4,
2674  const double x5,
2675  const double x6,
2676  const double x7,
2677  const double x8,
2678  const Num2& w) {
2679  if (dim_ != 9U)
2680  Private::h_badargs("fill");
2681  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0;
2682  const Axis* ax = &axes_[0];
2683  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2684  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2685  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2686  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2687  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2688  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2689  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2690  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2691  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2692  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U)
2693  data_(i0, i1, i2, i3, i4, i5, i6, i7, i8) += w;
2694  else {
2695  overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8) += w;
2696  ++overCount_;
2697  }
2698  ++fillCount_;
2699  ++modCount_;
2700  }
2701 
2702  template <typename Numeric, class Axis>
2703  template <typename Num2, class Functor>
2704  void HistoND<Numeric, Axis>::dispatch(const double x0,
2705  const double x1,
2706  const double x2,
2707  const double x3,
2708  const double x4,
2709  const double x5,
2710  const double x6,
2711  const double x7,
2712  const double x8,
2713  Num2& w,
2714  Functor& f) {
2715  if (dim_ != 9U)
2716  Private::h_badargs("dispatch");
2717  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0;
2718  const Axis* ax = &axes_[0];
2719  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2720  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2721  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2722  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2723  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2724  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2725  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2726  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2727  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2728  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U)
2729  f(data_(i0, i1, i2, i3, i4, i5, i6, i7, i8), w);
2730  else
2731  f(overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8), w);
2732  ++modCount_;
2733  }
2734 
2735  template <typename Numeric, class Axis>
2736  template <typename Num2>
2737  void HistoND<Numeric, Axis>::fillC(const double x0,
2738  const double x1,
2739  const double x2,
2740  const double x3,
2741  const double x4,
2742  const double x5,
2743  const double x6,
2744  const double x7,
2745  const double x8,
2746  const Num2& w) {
2747  if (dim_ != 9U)
2748  Private::h_badargs("fillC");
2749  double* wg = &weightBuf_[0];
2750  unsigned* idx = &indexBuf_[0];
2751  const Axis* ax = &axes_[0];
2752  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2753  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2754  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2755  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2756  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2757  const unsigned o5 = ax[5].overflowIndexWeighted(x5, idx + 5, wg + 5);
2758  const unsigned o6 = ax[6].overflowIndexWeighted(x6, idx + 6, wg + 6);
2759  const unsigned o7 = ax[7].overflowIndexWeighted(x7, idx + 7, wg + 7);
2760  const unsigned o8 = ax[8].overflowIndexWeighted(x8, idx + 8, wg + 8);
2761  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U)
2762  fillPreservingCentroid(w);
2763  else {
2764  overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8) += w;
2765  ++overCount_;
2766  }
2767  ++fillCount_;
2768  ++modCount_;
2769  }
2770 
2771  template <typename Numeric, class Axis>
2772  const Numeric& HistoND<Numeric, Axis>::examine(const double x0,
2773  const double x1,
2774  const double x2,
2775  const double x3,
2776  const double x4,
2777  const double x5,
2778  const double x6,
2779  const double x7,
2780  const double x8) const {
2781  if (dim_ != 9U)
2782  Private::h_badargs("examine");
2783  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0;
2784  const Axis* ax = &axes_[0];
2785  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2786  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2787  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2788  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2789  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2790  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2791  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2792  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2793  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2794  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U)
2795  return data_(i0, i1, i2, i3, i4, i5, i6, i7, i8);
2796  else
2797  return overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8);
2798  }
2799 
2800  template <typename Numeric, class Axis>
2801  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0,
2802  const double x1,
2803  const double x2,
2804  const double x3,
2805  const double x4,
2806  const double x5,
2807  const double x6,
2808  const double x7,
2809  const double x8) const {
2810  if (dim_ != 9U)
2811  Private::h_badargs("closestBin");
2812  const Axis* ax = &axes_[0];
2813  const unsigned i0 = ax[0].closestValidBin(x0);
2814  const unsigned i1 = ax[1].closestValidBin(x1);
2815  const unsigned i2 = ax[2].closestValidBin(x2);
2816  const unsigned i3 = ax[3].closestValidBin(x3);
2817  const unsigned i4 = ax[4].closestValidBin(x4);
2818  const unsigned i5 = ax[5].closestValidBin(x5);
2819  const unsigned i6 = ax[6].closestValidBin(x6);
2820  const unsigned i7 = ax[7].closestValidBin(x7);
2821  const unsigned i8 = ax[8].closestValidBin(x8);
2822  return data_(i0, i1, i2, i3, i4, i5, i6, i7, i8);
2823  }
2824 
2825  template <typename Numeric, class Axis>
2826  template <typename Num2>
2827  void HistoND<Numeric, Axis>::fill(const double x0,
2828  const double x1,
2829  const double x2,
2830  const double x3,
2831  const double x4,
2832  const double x5,
2833  const double x6,
2834  const double x7,
2835  const double x8,
2836  const double x9,
2837  const Num2& w) {
2838  if (dim_ != 10U)
2839  Private::h_badargs("fill");
2840  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0, i9 = 0;
2841  const Axis* ax = &axes_[0];
2842  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2843  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2844  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2845  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2846  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2847  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2848  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2849  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2850  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2851  const unsigned o9 = ax[9].overflowIndex(x9, &i9);
2852  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U &&
2853  o9 == 1U)
2854  data_(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9) += w;
2855  else {
2856  overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8, o9) += w;
2857  ++overCount_;
2858  }
2859  ++fillCount_;
2860  ++modCount_;
2861  }
2862 
2863  template <typename Numeric, class Axis>
2864  template <typename Num2, class Functor>
2865  void HistoND<Numeric, Axis>::dispatch(const double x0,
2866  const double x1,
2867  const double x2,
2868  const double x3,
2869  const double x4,
2870  const double x5,
2871  const double x6,
2872  const double x7,
2873  const double x8,
2874  const double x9,
2875  Num2& w,
2876  Functor& f) {
2877  if (dim_ != 10U)
2878  Private::h_badargs("dispatch");
2879  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0, i9 = 0;
2880  const Axis* ax = &axes_[0];
2881  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2882  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2883  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2884  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2885  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2886  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2887  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2888  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2889  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2890  const unsigned o9 = ax[9].overflowIndex(x9, &i9);
2891  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U &&
2892  o9 == 1U)
2893  f(data_(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9), w);
2894  else
2895  f(overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8, o9), w);
2896  ++modCount_;
2897  }
2898 
2899  template <typename Numeric, class Axis>
2900  template <typename Num2>
2901  void HistoND<Numeric, Axis>::fillC(const double x0,
2902  const double x1,
2903  const double x2,
2904  const double x3,
2905  const double x4,
2906  const double x5,
2907  const double x6,
2908  const double x7,
2909  const double x8,
2910  const double x9,
2911  const Num2& w) {
2912  if (dim_ != 10U)
2913  Private::h_badargs("fillC");
2914  double* wg = &weightBuf_[0];
2915  unsigned* idx = &indexBuf_[0];
2916  const Axis* ax = &axes_[0];
2917  const unsigned o0 = ax[0].overflowIndexWeighted(x0, idx + 0, wg + 0);
2918  const unsigned o1 = ax[1].overflowIndexWeighted(x1, idx + 1, wg + 1);
2919  const unsigned o2 = ax[2].overflowIndexWeighted(x2, idx + 2, wg + 2);
2920  const unsigned o3 = ax[3].overflowIndexWeighted(x3, idx + 3, wg + 3);
2921  const unsigned o4 = ax[4].overflowIndexWeighted(x4, idx + 4, wg + 4);
2922  const unsigned o5 = ax[5].overflowIndexWeighted(x5, idx + 5, wg + 5);
2923  const unsigned o6 = ax[6].overflowIndexWeighted(x6, idx + 6, wg + 6);
2924  const unsigned o7 = ax[7].overflowIndexWeighted(x7, idx + 7, wg + 7);
2925  const unsigned o8 = ax[8].overflowIndexWeighted(x8, idx + 8, wg + 8);
2926  const unsigned o9 = ax[9].overflowIndexWeighted(x9, idx + 9, wg + 9);
2927  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U &&
2928  o9 == 1U)
2929  fillPreservingCentroid(w);
2930  else {
2931  overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8, o9) += w;
2932  ++overCount_;
2933  }
2934  ++fillCount_;
2935  ++modCount_;
2936  }
2937 
2938  template <typename Numeric, class Axis>
2939  const Numeric& HistoND<Numeric, Axis>::examine(const double x0,
2940  const double x1,
2941  const double x2,
2942  const double x3,
2943  const double x4,
2944  const double x5,
2945  const double x6,
2946  const double x7,
2947  const double x8,
2948  const double x9) const {
2949  if (dim_ != 10U)
2950  Private::h_badargs("examine");
2951  unsigned i0 = 0, i1 = 0, i2 = 0, i3 = 0, i4 = 0, i5 = 0, i6 = 0, i7 = 0, i8 = 0, i9 = 0;
2952  const Axis* ax = &axes_[0];
2953  const unsigned o0 = ax[0].overflowIndex(x0, &i0);
2954  const unsigned o1 = ax[1].overflowIndex(x1, &i1);
2955  const unsigned o2 = ax[2].overflowIndex(x2, &i2);
2956  const unsigned o3 = ax[3].overflowIndex(x3, &i3);
2957  const unsigned o4 = ax[4].overflowIndex(x4, &i4);
2958  const unsigned o5 = ax[5].overflowIndex(x5, &i5);
2959  const unsigned o6 = ax[6].overflowIndex(x6, &i6);
2960  const unsigned o7 = ax[7].overflowIndex(x7, &i7);
2961  const unsigned o8 = ax[8].overflowIndex(x8, &i8);
2962  const unsigned o9 = ax[9].overflowIndex(x9, &i9);
2963  if (o0 == 1U && o1 == 1U && o2 == 1U && o3 == 1U && o4 == 1U && o5 == 1U && o6 == 1U && o7 == 1U && o8 == 1U &&
2964  o9 == 1U)
2965  return data_(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9);
2966  else
2967  return overflow_(o0, o1, o2, o3, o4, o5, o6, o7, o8, o9);
2968  }
2969 
2970  template <typename Numeric, class Axis>
2971  const Numeric& HistoND<Numeric, Axis>::closestBin(const double x0,
2972  const double x1,
2973  const double x2,
2974  const double x3,
2975  const double x4,
2976  const double x5,
2977  const double x6,
2978  const double x7,
2979  const double x8,
2980  const double x9) const {
2981  if (dim_ != 10U)
2982  Private::h_badargs("closestBin");
2983  const Axis* ax = &axes_[0];
2984  const unsigned i0 = ax[0].closestValidBin(x0);
2985  const unsigned i1 = ax[1].closestValidBin(x1);
2986  const unsigned i2 = ax[2].closestValidBin(x2);
2987  const unsigned i3 = ax[3].closestValidBin(x3);
2988  const unsigned i4 = ax[4].closestValidBin(x4);
2989  const unsigned i5 = ax[5].closestValidBin(x5);
2990  const unsigned i6 = ax[6].closestValidBin(x6);
2991  const unsigned i7 = ax[7].closestValidBin(x7);
2992  const unsigned i8 = ax[8].closestValidBin(x8);
2993  const unsigned i9 = ax[9].closestValidBin(x9);
2994  return data_(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9);
2995  }
2996 
2997  template <typename Numeric, class Axis>
2998  template <typename Num2>
2999  inline void HistoND<Numeric, Axis>::setBin(const unsigned* index, const unsigned indexLen, const Num2& v) {
3000  data_.value(index, indexLen) = v;
3001  ++modCount_;
3002  }
3003 
3004  template <typename Numeric, class Axis>
3005  template <typename Num2>
3006  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned* index, const unsigned indexLen, const Num2& v) {
3007  data_.valueAt(index, indexLen) = v;
3008  ++modCount_;
3009  }
3010 
3011  template <typename Numeric, class Axis>
3012  template <typename Num2>
3013  inline void HistoND<Numeric, Axis>::setBin(const Num2& v) {
3014  data_() = v;
3015  ++modCount_;
3016  }
3017 
3018  template <typename Numeric, class Axis>
3019  template <typename Num2>
3020  inline void HistoND<Numeric, Axis>::setBinAt(const Num2& v) {
3021  data_.at() = v;
3022  ++modCount_;
3023  }
3024 
3025  template <typename Numeric, class Axis>
3026  template <typename Num2>
3027  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0, const Num2& v) {
3028  data_(i0) = v;
3029  ++modCount_;
3030  }
3031 
3032  template <typename Numeric, class Axis>
3033  template <typename Num2>
3034  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0, const Num2& v) {
3035  data_.at(i0) = v;
3036  ++modCount_;
3037  }
3038 
3039  template <typename Numeric, class Axis>
3040  template <typename Num2>
3041  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0, const unsigned i1, const Num2& v) {
3042  data_(i0, i1) = v;
3043  ++modCount_;
3044  }
3045 
3046  template <typename Numeric, class Axis>
3047  template <typename Num2>
3048  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0, const unsigned i1, const Num2& v) {
3049  data_.at(i0, i1) = v;
3050  ++modCount_;
3051  }
3052 
3053  template <typename Numeric, class Axis>
3054  template <typename Num2>
3055  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0, const unsigned i1, const unsigned i2, const Num2& v) {
3056  data_(i0, i1, i2) = v;
3057  ++modCount_;
3058  }
3059 
3060  template <typename Numeric, class Axis>
3061  template <typename Num2>
3063  const unsigned i0, const unsigned i1, const unsigned i2, const unsigned i3, const Num2& v) {
3064  data_(i0, i1, i2, i3) = v;
3065  ++modCount_;
3066  }
3067 
3068  template <typename Numeric, class Axis>
3069  template <typename Num2>
3071  const unsigned i0, const unsigned i1, const unsigned i2, const unsigned i3, const unsigned i4, const Num2& v) {
3072  data_(i0, i1, i2, i3, i4) = v;
3073  ++modCount_;
3074  }
3075 
3076  template <typename Numeric, class Axis>
3077  template <typename Num2>
3078  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0,
3079  const unsigned i1,
3080  const unsigned i2,
3081  const unsigned i3,
3082  const unsigned i4,
3083  const unsigned i5,
3084  const Num2& v) {
3085  data_(i0, i1, i2, i3, i4, i5) = v;
3086  ++modCount_;
3087  }
3088 
3089  template <typename Numeric, class Axis>
3090  template <typename Num2>
3091  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0,
3092  const unsigned i1,
3093  const unsigned i2,
3094  const unsigned i3,
3095  const unsigned i4,
3096  const unsigned i5,
3097  const unsigned i6,
3098  const Num2& v) {
3099  data_(i0, i1, i2, i3, i4, i5, i6) = v;
3100  ++modCount_;
3101  }
3102 
3103  template <typename Numeric, class Axis>
3104  template <typename Num2>
3105  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0,
3106  const unsigned i1,
3107  const unsigned i2,
3108  const unsigned i3,
3109  const unsigned i4,
3110  const unsigned i5,
3111  const unsigned i6,
3112  const unsigned i7,
3113  const Num2& v) {
3114  data_(i0, i1, i2, i3, i4, i5, i6, i7) = v;
3115  ++modCount_;
3116  }
3117 
3118  template <typename Numeric, class Axis>
3119  template <typename Num2>
3120  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0,
3121  const unsigned i1,
3122  const unsigned i2,
3123  const unsigned i3,
3124  const unsigned i4,
3125  const unsigned i5,
3126  const unsigned i6,
3127  const unsigned i7,
3128  const unsigned i8,
3129  const Num2& v) {
3130  data_(i0, i1, i2, i3, i4, i5, i6, i7, i8) = v;
3131  ++modCount_;
3132  }
3133 
3134  template <typename Numeric, class Axis>
3135  template <typename Num2>
3136  inline void HistoND<Numeric, Axis>::setBin(const unsigned i0,
3137  const unsigned i1,
3138  const unsigned i2,
3139  const unsigned i3,
3140  const unsigned i4,
3141  const unsigned i5,
3142  const unsigned i6,
3143  const unsigned i7,
3144  const unsigned i8,
3145  const unsigned i9,
3146  const Num2& v) {
3147  data_(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9) = v;
3148  ++modCount_;
3149  }
3150 
3151  template <typename Numeric, class Axis>
3152  template <typename Num2>
3153  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0, const unsigned i1, const unsigned i2, const Num2& v) {
3154  data_.at(i0, i1, i2) = v;
3155  ++modCount_;
3156  }
3157 
3158  template <typename Numeric, class Axis>
3159  template <typename Num2>
3161  const unsigned i0, const unsigned i1, const unsigned i2, const unsigned i3, const Num2& v) {
3162  data_.at(i0, i1, i2, i3) = v;
3163  ++modCount_;
3164  }
3165 
3166  template <typename Numeric, class Axis>
3167  template <typename Num2>
3169  const unsigned i0, const unsigned i1, const unsigned i2, const unsigned i3, const unsigned i4, const Num2& v) {
3170  data_.at(i0, i1, i2, i3, i4) = v;
3171  ++modCount_;
3172  }
3173 
3174  template <typename Numeric, class Axis>
3175  template <typename Num2>
3176  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0,
3177  const unsigned i1,
3178  const unsigned i2,
3179  const unsigned i3,
3180  const unsigned i4,
3181  const unsigned i5,
3182  const Num2& v) {
3183  data_.at(i0, i1, i2, i3, i4, i5) = v;
3184  ++modCount_;
3185  }
3186 
3187  template <typename Numeric, class Axis>
3188  template <typename Num2>
3189  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0,
3190  const unsigned i1,
3191  const unsigned i2,
3192  const unsigned i3,
3193  const unsigned i4,
3194  const unsigned i5,
3195  const unsigned i6,
3196  const Num2& v) {
3197  data_.at(i0, i1, i2, i3, i4, i5, i6) = v;
3198  ++modCount_;
3199  }
3200 
3201  template <typename Numeric, class Axis>
3202  template <typename Num2>
3203  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0,
3204  const unsigned i1,
3205  const unsigned i2,
3206  const unsigned i3,
3207  const unsigned i4,
3208  const unsigned i5,
3209  const unsigned i6,
3210  const unsigned i7,
3211  const Num2& v) {
3212  data_.at(i0, i1, i2, i3, i4, i5, i6, i7) = v;
3213  ++modCount_;
3214  }
3215 
3216  template <typename Numeric, class Axis>
3217  template <typename Num2>
3218  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0,
3219  const unsigned i1,
3220  const unsigned i2,
3221  const unsigned i3,
3222  const unsigned i4,
3223  const unsigned i5,
3224  const unsigned i6,
3225  const unsigned i7,
3226  const unsigned i8,
3227  const Num2& v) {
3228  data_.at(i0, i1, i2, i3, i4, i5, i6, i7, i8) = v;
3229  ++modCount_;
3230  }
3231 
3232  template <typename Numeric, class Axis>
3233  template <typename Num2>
3234  inline void HistoND<Numeric, Axis>::setBinAt(const unsigned i0,
3235  const unsigned i1,
3236  const unsigned i2,
3237  const unsigned i3,
3238  const unsigned i4,
3239  const unsigned i5,
3240  const unsigned i6,
3241  const unsigned i7,
3242  const unsigned i8,
3243  const unsigned i9,
3244  const Num2& v) {
3245  data_.at(i0, i1, i2, i3, i4, i5, i6, i7, i8, i9) = v;
3246  ++modCount_;
3247  }
3248 
3249  template <typename Numeric, class Axis>
3250  template <typename Num2>
3252  data_ += r.data_;
3253  overflow_ += r.overflow_;
3254  fillCount_ += r.fillCount_;
3255  overCount_ += r.overCount_;
3256  ++modCount_;
3257  return *this;
3258  }
3259 
3260  template <typename Numeric, class Axis>
3261  template <typename Num2>
3263  data_ -= r.data_;
3264  overflow_ -= r.overflow_;
3265 
3266  // Subtraction does not make much sense for fill counts.
3267  // We will assume that what we want should be equivalent
3268  // to the in-place multiplication of the other histogram
3269  // by -1 and then adding.
3270  //
3271  fillCount_ += r.fillCount_;
3272  overCount_ += r.overCount_;
3273 
3274  ++modCount_;
3275  return *this;
3276  }
3277 
3278  template <typename Numeric, class Axis>
3279  template <typename Num2>
3281  data_ *= r;
3282  overflow_ *= r;
3283  ++modCount_;
3284  return *this;
3285  }
3286 
3287  template <typename Numeric, class Axis>
3288  template <typename Num2>
3290  data_ /= r;
3291  overflow_ /= r;
3292  ++modCount_;
3293  return *this;
3294  }
3295 
3296  template <typename Numeric, class Axis>
3297  HistoND<Numeric, Axis>::HistoND(const HistoND& r, const unsigned ax1, const unsigned ax2)
3298  : title_(r.title_),
3299  accumulatedDataLabel_(r.accumulatedDataLabel_),
3300  data_(r.data_.transpose(ax1, ax2)),
3301  overflow_(r.overflow_.transpose(ax1, ax2)),
3302  axes_(r.axes_),
3303  weightBuf_(r.weightBuf_),
3304  indexBuf_(r.indexBuf_),
3305  fillCount_(r.fillCount_),
3306  overCount_(r.overCount_),
3307  modCount_(0UL),
3308  dim_(r.dim_) {
3309  std::swap(axes_[ax1], axes_[ax2]);
3310  }
3311 
3312  template <typename Numeric, class Axis>
3314  : title_(r.title_),
3315  accumulatedDataLabel_(r.accumulatedDataLabel_),
3316  data_(r.data_),
3317  overflow_(r.overflow_),
3318  axes_(r.axes_),
3319  weightBuf_(r.weightBuf_),
3320  indexBuf_(r.indexBuf_),
3321  fillCount_(r.fillCount_),
3322  overCount_(r.overCount_),
3323  modCount_(0UL),
3324  dim_(r.dim_) {}
3325 
3326  template <typename Numeric, class Axis>
3328  if (&r != this) {
3329  title_ = r.title_;
3330  accumulatedDataLabel_ = r.accumulatedDataLabel_;
3331  data_.uninitialize();
3332  data_ = r.data_;
3333  overflow_.uninitialize();
3334  overflow_ = r.overflow_;
3335  axes_ = r.axes_;
3336  weightBuf_ = r.weightBuf_;
3337  indexBuf_ = r.indexBuf_;
3338  fillCount_ = r.fillCount_;
3339  overCount_ = r.overCount_;
3340  dim_ = r.dim_;
3341  ++modCount_;
3342  }
3343  return *this;
3344  }
3345 
3346  template <typename Numeric, class Axis>
3347  HistoND<Numeric, Axis> HistoND<Numeric, Axis>::transpose(const unsigned axisNum1, const unsigned axisNum2) const {
3348  if (axisNum1 >= dim_ || axisNum2 >= dim_)
3350  "In npstat::HistoND::transpose: "
3351  "axis number is out of range");
3352  if (axisNum1 == axisNum2)
3353  // Just make a copy
3354  return *this;
3355  else
3356  return HistoND(*this, axisNum1, axisNum2);
3357  }
3358 
3359  template <typename Numeric, class Axis>
3360  template <typename Num2>
3362  const unsigned long nDat = data_.length();
3363  Numeric* data = const_cast<Numeric*>(data_.data());
3364  for (unsigned long i = 0; i < nDat; ++i)
3365  data[i] += weight;
3366  fillCount_ += nDat;
3367  ++modCount_;
3368  }
3369 
3370  template <typename Numeric, class Axis>
3371  template <typename Num2>
3373  const unsigned long nOver = overflow_.length();
3374  Numeric* data = const_cast<Numeric*>(overflow_.data());
3375  for (unsigned long i = 0; i < nOver; ++i)
3376  data[i] += weight;
3377  overCount_ += nOver;
3378  fillCount_ += nOver;
3379  ++modCount_;
3380  }
3381 
3382  template <typename Numeric, class Axis>
3383  template <typename Num2>
3384  void HistoND<Numeric, Axis>::addToBinContents(const Num2* data, const unsigned long dataLength) {
3385  if (dataLength != data_.length())
3386  throw npstat::NpstatInvalidArgument("In npstat::HistoND::addToBinContents: incompatible data length");
3387  assert(data);
3388  Numeric* dat = const_cast<Numeric*>(data_.data());
3389  for (unsigned long i = 0; i < dataLength; ++i)
3390  dat[i] += data[i];
3391  fillCount_ += dataLength;
3392  ++modCount_;
3393  }
3394 
3395  template <typename Numeric, class Axis>
3396  template <typename Num2>
3397  void HistoND<Numeric, Axis>::addToOverflows(const Num2* data, const unsigned long dataLength) {
3398  if (dataLength != overflow_.length())
3399  throw npstat::NpstatInvalidArgument("In npstat::HistoND::addToOverflows: incompatible data length");
3400  assert(data);
3401  Numeric* dat = const_cast<Numeric*>(overflow_.data());
3402  for (unsigned long i = 0; i < dataLength; ++i)
3403  dat[i] += data[i];
3404  overCount_ += dataLength;
3405  fillCount_ += dataLength;
3406  ++modCount_;
3407  }
3408 
3409  template <typename Numeric, class Axis>
3410  template <typename Num2>
3411  void HistoND<Numeric, Axis>::scaleBinContents(const Num2* data, const unsigned long dataLength) {
3412  if (dataLength != data_.length())
3413  throw npstat::NpstatInvalidArgument("In npstat::HistoND::scaleBinContents: incompatible data length");
3414  assert(data);
3415  Numeric* dat = const_cast<Numeric*>(data_.data());
3416  for (unsigned long i = 0; i < dataLength; ++i)
3417  dat[i] *= data[i];
3418  ++modCount_;
3419  }
3420 
3421  template <typename Numeric, class Axis>
3422  template <typename Num2>
3423  void HistoND<Numeric, Axis>::scaleOverflows(const Num2* data, const unsigned long dataLength) {
3424  if (dataLength != overflow_.length())
3425  throw npstat::NpstatInvalidArgument("In npstat::HistoND::scaleOverflows: incompatible data length");
3426  assert(data);
3427  Numeric* dat = const_cast<Numeric*>(overflow_.data());
3428  for (unsigned long i = 0; i < dataLength; ++i)
3429  dat[i] *= data[i];
3430  ++modCount_;
3431  }
3432 
3433  template <typename Numeric, class Axis>
3434  template <typename Num2>
3436  const unsigned long dataLength,
3437  const bool clearOverflowsNow) {
3438  data_.setData(data, dataLength);
3439  if (clearOverflowsNow)
3440  clearOverflows();
3441  ++modCount_;
3442  }
3443 
3444  template <typename Numeric, class Axis>
3445  template <typename Num2>
3446  inline void HistoND<Numeric, Axis>::setOverflows(const Num2* data, const unsigned long dataLength) {
3447  overflow_.setData(data, dataLength);
3448  ++modCount_;
3449  }
3450 
3451  template <typename Numeric, class Axis>
3453  const long double nOver = overflow_.template sum<long double>();
3454  const long double nData = data_.template sum<long double>();
3455  overCount_ = static_cast<unsigned long>(nOver);
3456  fillCount_ = static_cast<unsigned long>(nData + nOver);
3457  ++modCount_;
3458  }
3459 
3460  template <typename Numeric, class Axis>
3461  template <typename Num2, typename Num3>
3464  const unsigned* projectedIndices,
3465  const unsigned nProjectedIndices) const {
3466  assert(projection);
3467  data_.addToProjection(&projection->data_, projector, projectedIndices, nProjectedIndices);
3468  projection->fillCount_ += projection->nBins();
3469  projection->modCount_++;
3470  }
3471 
3472  template <typename Numeric, class Axis>
3473  template <typename Num2, typename Num3>
3475  AbsVisitor<Numeric, Num3>& projector,
3476  const unsigned* projectedIndices,
3477  const unsigned nProjectedIndices) const {
3478  assert(projection);
3479  data_.addToProjection(&projection->data_, projector, projectedIndices, nProjectedIndices);
3480  projection->fillCount_ += projection->nBins();
3481  projection->modCount_++;
3482  }
3483 
3484  template <typename Numeric, class Axis>
3486  static const std::string myClass(gs::template_class_name<Numeric, Axis>("npstat::HistoND"));
3487  return myClass.c_str();
3488  }
3489 
3490  template <typename Numeric, class Axis>
3491  bool HistoND<Numeric, Axis>::write(std::ostream& of) const {
3492  gs::write_pod(of, title_);
3493  gs::write_pod(of, accumulatedDataLabel_);
3494  gs::write_pod(of, fillCount_);
3495  gs::write_pod(of, overCount_);
3496 
3497  return !of.fail() && gs::write_obj_vector(of, axes_) && data_.classId().write(of) && data_.write(of) &&
3498  overflow_.write(of);
3499  }
3500 
3501  template <typename Numeric, class Axis>
3502  HistoND<Numeric, Axis>* HistoND<Numeric, Axis>::read(const gs::ClassId& id, std::istream& in) {
3503  static const gs::ClassId current(gs::ClassId::makeId<HistoND<Numeric, Axis> >());
3504  current.ensureSameId(id);
3505 
3507  gs::read_pod(in, &title);
3508 
3509  std::string accumulatedDataLabel;
3510  gs::read_pod(in, &accumulatedDataLabel);
3511 
3512  unsigned long fillCount = 0, overCount = 0;
3513  gs::read_pod(in, &fillCount);
3514  gs::read_pod(in, &overCount);
3515  if (in.fail())
3516  throw gs::IOReadFailure("In npstat::HistoND::read: input stream failure");
3517 
3518  std::vector<Axis> axes;
3519  gs::read_heap_obj_vector_as_placed(in, &axes);
3520  gs::ClassId ida(in, 1);
3521  ArrayND<Numeric> data, over;
3523  ArrayND<Numeric>::restore(ida, in, &over);
3524  CPP11_auto_ptr<HistoND<Numeric, Axis> > result(
3525  new HistoND<Numeric, Axis>(axes, title.c_str(), accumulatedDataLabel.c_str()));
3526  result->data_ = data;
3527  result->overflow_ = over;
3528  result->fillCount_ = fillCount;
3529  result->overCount_ = overCount;
3530  return result.release();
3531  }
3532 
3533  template <typename Histo>
3534  void convertHistoToDensity(Histo* h, const bool knownNonNegative) {
3535  assert(h);
3536  if (!knownNonNegative)
3537  (const_cast<ArrayND<typename Histo::value_type>&>(h->binContents())).makeNonNegative();
3538  const double integ = h->integral();
3539  *h /= integ;
3540  }
3541 
3542  template <typename Histo>
3543  std::vector<LinearMapper1d> densityScanHistoMap(const Histo& histo) {
3544  std::vector<LinearMapper1d> result;
3545  const unsigned d = histo.dim();
3546  result.reserve(d);
3547  for (unsigned i = 0; i < d; ++i) {
3548  const LinearMapper1d& m = histo.axis(i).binNumberMapper(false);
3549  result.push_back(m.inverse());
3550  }
3551  return result;
3552  }
3553 
3554  template <typename Histo>
3555  std::vector<CircularMapper1d> convolutionHistoMap(const Histo& histo, const bool doubleRange) {
3556  std::vector<CircularMapper1d> result;
3557  const unsigned d = histo.dim();
3558  result.reserve(d);
3559  for (unsigned i = 0; i < d; ++i)
3560  result.push_back(histo.axis(i).kernelScanMapper(doubleRange));
3561  return result;
3562  }
3563 } // namespace npstat
3564 
3565 #endif // NPSTAT_HISTOND_HH_
size
Write out results.
HistoND()=delete
unsigned long nFillsInRange() const
Definition: HistoND.h:200
void setBinAt(const unsigned *index, unsigned indexLen, const Num2 &v)
Definition: HistoND.h:3006
bool isSameData(const HistoND &) const
Definition: HistoND.h:1605
def transpose(a)
Definition: geometryDiff.py:39
unsigned long nBins() const
Definition: HistoND.h:194
static unsigned version()
Definition: HistoND.h:929
unsigned long fillCount_
Definition: HistoND.h:954
unsigned dim_
Definition: HistoND.h:957
BoxND< double > boundingBox() const
Definition: HistoND.h:1539
HistoND & operator+=(const HistoND< Num2, Axis > &r)
std::vector< CircularMapper1d > convolutionHistoMap(const Histo &histo, bool doubleDataRange)
Definition: HistoND.h:3555
T w() const
void clear()
Definition: HistoND.h:1262
unsigned long modCount_
Definition: HistoND.h:956
unsigned dim() const
Definition: HistoND.h:173
const std::string & title() const
Definition: HistoND.h:176
Definition: weight.py:1
HistoND & operator=(const HistoND &)
Definition: HistoND.h:3327
void accumulateBinsInBox(const BoxND< double > &box, Acc *acc, bool calculateAverage=false) const
Definition: HistoND.h:1228
void dispatch(const double *coords, unsigned coordLength, Num2 &weight, Functor &f)
Definition: HistoND.h:1674
std::vector< unsigned > ArrayShape
Definition: ArrayShape.h:21
HistoND & operator*=(const Num2 &r)
Numeric & linearValue(unsigned long index)
Definition: ArrayND.h:3123
void binCenter(unsigned long binNumber, double *coords, unsigned lenCoords) const
Definition: HistoND.h:1551
Numeric value_type
Definition: HistoND.h:48
assert(be >=bs)
unsigned long nFillsTotal() const
Definition: HistoND.h:197
void setLinearBin(const unsigned long index, const Num2 &v)
Definition: HistoND.h:691
void fill(const double *coords, unsigned coordLength, const Num2 &weight)
Definition: HistoND.h:1646
std::string title_
Definition: HistoND.h:947
Numeric & linearValueAt(unsigned long index)
Definition: ArrayND.h:3133
void recalculateNFillsFromData()
Definition: HistoND.h:3452
void scaleBinContents(const Num2 *data, unsigned long dataLength)
Definition: HistoND.h:3411
std::string accumulatedDataLabel_
Definition: HistoND.h:948
unsigned long getModCount() const
Definition: HistoND.h:913
void convertHistoToDensity(Histo *histogram, bool knownNonNegative=false)
Definition: HistoND.h:3534
char const * label
ArrayND & constFill(Numeric c)
Definition: ArrayND.h:4342
void setNFillsOver(const unsigned long i)
Definition: HistoND.h:815
Axis axis_type
Definition: HistoND.h:49
Exceptions for the npstat namespace.
void h_badargs(const char *method)
Definition: HistoND.h:1193
void setAccumulatedDataLabel(const char *newlabel)
Definition: HistoND.h:218
def binNumber(station, sl)
void setOverflowsToConst(const Num2 &value)
Definition: HistoND.h:793
ArrayShape makeHistoShape(const Axis &xAxis, const Axis &yAxis, const Axis &zAxis, const Axis &tAxis, const Axis &vAxis)
Definition: HistoND.h:1059
void addToBinContents(const Num2 &weight)
Definition: HistoND.h:3361
double volume() const
Definition: HistoND.h:1634
void swap(edm::DataFrameContainer &lhs, edm::DataFrameContainer &rhs)
void setBin(const unsigned *index, unsigned indexLen, const Num2 &v)
Definition: HistoND.h:2999
double binVolume(unsigned long binNumber=0) const
Definition: HistoND.h:1622
static const char * classname()
Definition: HistoND.h:3485
void addToOverflows(const Num2 &weight)
Definition: HistoND.h:3372
void addToProjection(HistoND< Num2, Axis > *projection, AbsArrayProjector< Numeric, Num3 > &projector, const unsigned *projectedIndices, unsigned nProjectedIndices) const
Definition: HistoND.h:3462
void setNFillsTotal(const unsigned long i)
Definition: HistoND.h:811
ArrayND< Numeric > data_
Definition: HistoND.h:949
void fillC(const double *coords, unsigned coordLength, const Num2 &weight)
Definition: HistoND.h:1764
double integral() const
Definition: HistoND.h:1520
double f[11][100]
const ArrayND< Numeric > & binContents() const
Definition: HistoND.h:182
const std::vector< Axis > & axes() const
Definition: HistoND.h:188
ArrayShape makeHistoShape(const std::vector< Axis > &axes)
Definition: HistoND.h:1011
void convertLinearIndex(unsigned long l, unsigned *index, unsigned indexLen) const
Definition: ArrayND.h:3048
Definition: value.py:1
unsigned long nFillsOver() const
Definition: HistoND.h:203
std::vector< double > weightBuf_
Definition: HistoND.h:952
d
Definition: ztail.py:151
unsigned long overCount_
Definition: HistoND.h:955
const Numeric & closestBin() const
Definition: HistoND.h:1828
void accumulateBinsLoop(unsigned level, const BoxND< double > &box, unsigned *idx, Acc *accumulator, double overlapFraction, long double *wsum) const
Definition: HistoND.h:1203
PreciseTypeHelper< T, gs::IOIsNumber< T >::value >::type type
Definition: PreciseType.h:36
static void restore(const gs::ClassId &id, std::istream &in, ArrayND *array)
Definition: ArrayND.h:5386
std::vector< unsigned > indexBuf_
Definition: HistoND.h:953
const Numeric & examine() const
Definition: HistoND.h:1821
const Axis & axis(const unsigned i) const
Definition: HistoND.h:191
std::vector< Axis > rebinAxes(const std::vector< Axis > &axes, const unsigned *newBins, const unsigned lenNewBins)
Definition: HistoND.h:1072
void clearOverflows()
Definition: HistoND.h:1255
gs::ClassId classId() const
Definition: HistoND.h:924
std::vector< Axis > addAxis(const std::vector< Axis > &axes, const Axis &newAxis, const unsigned newAxisNumber)
Definition: HistoND.h:1156
HistoND & operator-=(const HistoND< Num2, Axis > &r)
void setTitle(const char *newtitle)
Definition: HistoND.h:212
void incrModCount()
Definition: HistoND.h:920
bool operator!=(const HistoND &) const
Definition: HistoND.h:1617
HistoND & operator/=(const Num2 &r)
HistoND transpose(unsigned axisNum1, unsigned axisNum2) const
Definition: HistoND.h:3347
void setOverflows(const Num2 *data, unsigned long dataLength)
Definition: HistoND.h:3446
void fillPreservingCentroid(const Num2 &weight)
Definition: HistoND.h:1741
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:79
void binBox(unsigned long binNumber, BoxND< double > *box) const
Definition: HistoND.h:1592
std::vector< Axis > axesOfASlice(const std::vector< Axis > &axes, const unsigned *fixedIndices, const unsigned nFixedIndices)
Definition: HistoND.h:1087
Structure Point Contains parameters of Gaussian fits to DMRs.
Definition: DMRtrends.cc:57
unsigned long length() const
Definition: ArrayND.h:233
const ArrayND< Numeric > & overflows() const
Definition: HistoND.h:185
void setBinContents(const Num2 *data, unsigned long dataLength, bool clearOverflows=true)
Definition: HistoND.h:3435
void setAxisLabel(const unsigned axisNum, const char *newlabel)
Definition: HistoND.h:224
void setBinsToConst(const Num2 &value)
Definition: HistoND.h:783
bool operator==(const HistoND &) const
Definition: HistoND.h:1610
static HistoND * read(const gs::ClassId &id, std::istream &in)
Definition: HistoND.h:3502
void setLinearBinAt(const unsigned long index, const Num2 &v)
Definition: HistoND.h:764
std::vector< Axis > axes_
Definition: HistoND.h:951
ArrayShape shapeOfASlice(const std::vector< Axis > &axes, const unsigned *fixedIndices, const unsigned nFixedIndices)
Definition: HistoND.h:1119
bool write(std::ostream &of) const
Definition: HistoND.h:3491
void allBinCenters(std::vector< Point > *centers) const
Definition: HistoND.h:1569
ArrayND< Numeric > overflow_
Definition: HistoND.h:950
void clearBinContents()
Definition: HistoND.h:1248
The Signals That Services Can Subscribe To This is based on ActivityRegistry h
Helper function to determine trigger accepts.
Definition: Activities.doc:4
const std::string & accumulatedDataLabel() const
Definition: HistoND.h:179
std::vector< LinearMapper1d > densityScanHistoMap(const Histo &histo)
Definition: HistoND.h:3543
bool isUniformlyBinned() const
Definition: HistoND.h:1512
Histogram axis with equidistant bins.
void scaleOverflows(const Num2 *data, unsigned long dataLength)
Definition: HistoND.h:3423
Arbitrary-dimensional array template.
ArrayShape shapeWithExtraAxis(const std::vector< Axis > &axes, const Axis &newAxis, const unsigned newAxisNumber)
Definition: HistoND.h:1175