[u/mrichter/AliRoot.git] / ITS / AliITSAlignMille2Module.h

#ifndef ALIITSALIGNMILLE2MODULE_H\r
#define ALIITSALIGNMILLE2MODULE_H \r
/* Copyright(c) 2007-2009 , ALICE Experiment at CERN, All rights reserved. * \r
 * See cxx source for full Copyright notice                               */  \r
 \r
/// \ingroup rec \r
/// \class AliITSAlignMille2Module\r
/// \brief Class for alignment of ITS \r
// \r
// Authors: Marcello Lunardon \r
//\r
// RS Converted static arrays fSensVolVolumeID and fSensVolIndex\r
// to TArrays in user transparent way.\r
//\r
/* $Id$  */ \r
//#include <TString.h> \r
//#include <TObject.h> \r
#include <TNamed.h> \r
#include <TArrayI.h> \r
#include <TArrayS.h> \r
#include <TObjArray.h> \r
class AliITSAlignMille2;\r
\r
class AliAlignObjParams; \r
class TGeoHMatrix; \r
\r
class AliITSAlignMille2Module : public TNamed \r
{ \r
public: \r
  enum {kSPD,kSDD,kSSD};\r
  enum {kMaxParGeom=6,kMaxParTot=8,kSensDefBit=0,kGlobalGeomBit=1};\r
  enum {kDOFTX,kDOFTY,kDOFTZ,kDOFPS,kDOFTH,kDOFPH,kDOFT0,kDOFDV};\r
  //\r
  AliITSAlignMille2Module(); \r
  AliITSAlignMille2Module(UShort_t volid);\r
  AliITSAlignMille2Module(Int_t index, UShort_t volid, const char* symname, const TGeoHMatrix *m, Int_t nsv=0, const UShort_t *volidsv=NULL);\r
  AliITSAlignMille2Module(const AliITSAlignMille2Module& rhs); // copy constructor\r
  AliITSAlignMille2Module& operator=(const AliITSAlignMille2Module& rhs);  \r
  //\r
  virtual ~AliITSAlignMille2Module(); \r
  //\r
  // geometry methods  \r
  Int_t        GetIndex()                             const {return fIndex;} \r
  UShort_t     GetVolumeID()                          const {return fVolumeID;}  \r
  Int_t        GetNSensitiveVolumes()                 const {return fNSensVol;} \r
  Int_t        GetSensVolIndex(Int_t at)              const {return fSensVolIndex[at];}\r
  Short_t      GetSensVolVolumeID(Int_t at)           const {return fSensVolVolumeID[at];}\r
  TGeoHMatrix *GetMatrix()                            const {return fMatrix;}\r
  void         GetLocalMatrix(TGeoHMatrix& mat)       const;\r
  UShort_t    *GetSensitiveVolumeVolumeID()           const {return (UShort_t*)fSensVolVolumeID.GetArray();}\r
  Float_t      GetSigmaFactor(Int_t i)                const {return fSigmaFactor[i];}\r
  Float_t      GetSigmaXFactor()                      const {return fSigmaFactor[0];}\r
  Float_t      GetSigmaYFactor()                      const {return fSigmaFactor[1];}\r
  Float_t      GetSigmaZFactor()                      const {return fSigmaFactor[2];}\r
  Int_t        GetNProcessedPoints()                  const {return fNProcPoints;}\r
  Bool_t       IsFreeDOF(Int_t dof)                   const {return fParCstr[dof]>0;}\r
  Bool_t       AreSensorsProvided()                   const {return TestBit(1<<(kSensDefBit+1));}\r
  Bool_t       GeomParamsGlobal()                     const {return TestBit(1<<(kGlobalGeomBit+1));}\r
  Bool_t       IsIn(UShort_t volid)                   const;\r
  Bool_t       IsAlignable()                          const;\r
  Bool_t       BelongsTo(AliITSAlignMille2Module* parent) const;\r
  AliITSAlignMille2Module* GetParent()                const {return fParent;}\r
  AliITSAlignMille2Module* GetChild(Int_t i)          const {return (AliITSAlignMille2Module*)fChildren[i];}\r
  Int_t        GetNChildren()                         const {return fChildren.GetLast()+1;}\r
  //\r
  void         Print(Option_t* opt="")                const; \r
  //\r
  void         EvaluateDOF();\r
  UShort_t     GetNParTot()                           const {return fNParTot;}\r
  UShort_t     GetNParFree()                          const {return fNParFree;}\r
  Float_t     *GetParVals()                           const {return fParVals;}\r
  Double_t     GetParVal(int par)                     const {return fParVals[par];}\r
  Double_t     GetParErr(int par)                     const {return fParErrs[par];}\r
  Double_t     GetParConstraint(int par)              const {return fParCstr[par];}\r
  Int_t        GetParOffset(Int_t par)                const {return fParOffs[par];}\r
  Int_t        GetDetType()                           const {return fDetType;}\r
  Bool_t       IsParConstrained(Int_t par)            const {return fParCstr[par]>0 && fParCstr[par]<fgkDummyConstraint;}\r
  Bool_t       IsSPD()                                const {return fDetType == kSPD;}\r
  Bool_t       IsSDD()                                const {return fDetType == kSDD;}\r
  Bool_t       IsSSD()                                const {return fDetType == kSSD;}\r
  Bool_t       IsSensor()                             const {return IsSensor(fVolumeID);}\r
  void         SetDetType(Int_t tp)                         {fDetType = tp;}\r
  void         SetParOffset(Int_t par,Int_t offs)           {fParOffs[par] = offs;}\r
  //\r
  void         SetParVals(Double_t *vl,Int_t npar);          \r
  void         SetParVal(Int_t par,Double_t v=0)            {fParVals[par] = v;}\r
  void         SetParErr(Int_t par,Double_t e=0)            {fParErrs[par] = e;}\r
  void         SetParConstraint(Int_t par,Double_t s=1e6)   {fParCstr[par] = s>0. ? s:0.0;}\r
  void         SetSigmaFactor(Int_t i,Float_t v)            {fSigmaFactor[i]=TMath::Max(0.001F,v);}\r
  void         SetSigmaXFactor(Float_t v)                   {SetSigmaFactor(0,v);}\r
  void         SetSigmaYFactor(Float_t v)                   {SetSigmaFactor(1,v);}\r
  void         SetSigmaZFactor(Float_t v)                   {SetSigmaFactor(2,v);}\r
  void         IncNProcessedPoints(Int_t step=1)            {fNProcPoints += step;}\r
  void         SetNProcessedPoints(Int_t v)                 {fNProcPoints = v;}\r
  void         SetParent(AliITSAlignMille2Module* par)      {fParent = par;}\r
  void         AddChild(AliITSAlignMille2Module* cld)       {fChildren.Add(cld);}\r
  void         SetFreeDOF(Int_t dof,Double_t cstr);\r
  void         SetSensorsProvided(Bool_t v=kTRUE)           {SetBit(1<<(kSensDefBit+1),v);}\r
  void         SetGeomParamsGlobal(Bool_t v=kTRUE)          {SetBit(1<<(kGlobalGeomBit+1),v);}\r
  Int_t        Set(Int_t index,UShort_t volid, const char* symname, const TGeoHMatrix *m,Int_t nsv=0, const UShort_t *volidsv=0);\r
  //\r
  void         AddSensitiveVolume(UShort_t volid);\r
  void         DelSensitiveVolume(Int_t at);\r
  void         DelSensitiveVolumes()                        {fNSensVol = 0;}\r
  //\r
  void         GetGeomParamsGlo(Double_t *pars);\r
  void         GetGeomParamsLoc(Double_t *pars);\r
  //\r
  TGeoHMatrix *GetSensitiveVolumeMatrix(UShort_t voluid);\r
  TGeoHMatrix *GetSensitiveVolumeOrigGlobalMatrix(UShort_t voluid);\r
  TGeoHMatrix *GetSensitiveVolumeModifiedMatrix(UShort_t voluid, Double_t *delta,Bool_t local=kTRUE); \r
  AliAlignObjParams *GetSensitiveVolumeMisalignment(UShort_t voluid, AliAlignObjParams *a); \r
  AliAlignObjParams *GetSensitiveVolumeMisalignment(UShort_t voluid, Double_t *deltalocal); \r
  //\r
  void         GetGlobalParams(Double_t *t, Double_t *r);\r
  void         GetGlobalParams(const Double_t *loct, const Double_t *locr,Double_t *t, Double_t *r);\r
  void         GetLocalParams(const Double_t *loct, const Double_t *locr,Double_t *t, Double_t *r);\r
  //\r
  void         GetSensVolGlobalParams(UShort_t volid,Double_t *t, Double_t *r);\r
  void         GetSensVolLocalParams(UShort_t volid,Double_t *t, Double_t *r);\r
  void         GetSensVolGlobalParams(UShort_t volid,Double_t* loct,Double_t* locr,Double_t *t, Double_t *r);\r
  void         GetSensVolLocalParams(UShort_t volid,Double_t* loct,Double_t* locr,Double_t *t, Double_t *r);\r
  //\r
  void         CalcDerivLocGlo(Double_t *deriv);\r
  void         CalcDerivGloLoc(Int_t idx,Double_t *deriv);\r
  void         CalcDerivGloLoc(Int_t sensVol,Int_t paridx,Double_t* derivative);\r
  void         CalcDerivCurLoc(Int_t sensVol,Int_t paridx,Double_t* derivative);\r
  void         CalcDerivDPosDPar(Int_t sensVol,const Double_t *pl,Double_t *deriv);\r
  //\r
  // forse non serve...\r
  AliAlignObjParams *GetSensitiveVolumeGlobalMisalignment(UShort_t voluid, Double_t *deltalocal); \r
  // mo' proviamo questo\r
  AliAlignObjParams *GetSensitiveVolumeTotalMisalignment(UShort_t voluid, Double_t *deltalocal); \r
  //\r
  static Int_t    GetIndexFromVolumeID(UShort_t volid);\r
  static UShort_t GetVolumeIDFromSymname(const Char_t *symname);\r
  static UShort_t GetVolumeIDFromIndex(Int_t index);\r
  static Bool_t   IsSensor(UShort_t vid);\r
  static Int_t    SensVolMatrix(UShort_t volid, TGeoHMatrix *m); \r
  static Int_t    SensVolOrigGlobalMatrix(UShort_t volid, TGeoHMatrix *m); \r
\r
  //\r
protected:\r
  //\r
  void         AssignDetType();\r
  //\r
protected:\r
  //\r
  Int_t          fNSensVol;                       // number of sensor it refers to\r
  Int_t          fIndex;                          // aliroot index\r
  Int_t          fDetType;                        // Detector type\r
  UShort_t       fVolumeID;                       // aliroot volune ID\r
  UShort_t       fNParTot;                        // total number of parameters\r
  UShort_t       fNParFree;                       // number of free parameters\r
  TArrayS        fParOffs;                        // offsets of free params in the fit results\r
  Int_t          fNProcPoints;                    // number of processed points\r
  Float_t        fSigmaFactor[3];                 // multiplicative factor for referred sensor X,Y,Z error\r
  Float_t       *fParVals;                        // values of the fitted params\r
  Float_t       *fParErrs;                        // errors of the fitted params\r
  Float_t       *fParCstr;                        // Gaussian type constraint on parameter, 0 means fixed param\r
  //\r
  TArrayI        fSensVolIndex;                   // aliroot indices for sensors\r
  TArrayS        fSensVolVolumeID;                // aliroot indices for sensors volumes\r
  TGeoHMatrix   *fMatrix;                         // ideal TGeoHMatrix of the supermodule\r
  TGeoHMatrix   *fSensVolMatrix;                  // sensor's ideal matrices\r
  TGeoHMatrix   *fSensVolModifMatrix;             // sensor's modified matrices\r
  //\r
  AliITSAlignMille2Module* fParent;               // optional parent pointer\r
  TObjArray      fChildren;                       // array of optional children\r
  //\r
  static AliAlignObjParams fgTempAlignObj;        // temp.alignment object used as a buffer               \r
  static const Float_t fgkDummyConstraint;        // dummy (lose) contraint on parameter\r
  //\r
  ClassDef(AliITSAlignMille2Module, 0)\r
}; \r
\r
#endif \r
Commit	Line	Data
7b85e477	1	#ifndef ALIITSALIGNMILLE2MODULE_H\r
	2	#define ALIITSALIGNMILLE2MODULE_H \r
	3	/* Copyright(c) 2007-2009 , ALICE Experiment at CERN, All rights reserved. * \r
	4	* See cxx source for full Copyright notice */ \r
	5	\r
	6	/// \ingroup rec \r
	7	/// \class AliITSAlignMille2Module\r
	8	/// \brief Class for alignment of ITS \r
	9	// \r
	10	// Authors: Marcello Lunardon \r
	11	//\r
	12	// RS Converted static arrays fSensVolVolumeID and fSensVolIndex\r
	13	// to TArrays in user transparent way.\r
	14	//\r
	15	/* $Id$ */ \r
	16	//#include <TString.h> \r
	17	//#include <TObject.h> \r
	18	#include <TNamed.h> \r
	19	#include <TArrayI.h> \r
	20	#include <TArrayS.h> \r
6526a72c	21	#include <TObjArray.h> \r
7b85e477	22	class AliITSAlignMille2;\r
	23	\r
	24	class AliAlignObjParams; \r
	25	class TGeoHMatrix; \r
	26	\r
	27	class AliITSAlignMille2Module : public TNamed \r
	28	{ \r
	29	public: \r
6526a72c	30	enum {kSPD,kSDD,kSSD};\r
	31	enum {kMaxParGeom=6,kMaxParTot=8,kSensDefBit=0,kGlobalGeomBit=1};\r
	32	enum {kDOFTX,kDOFTY,kDOFTZ,kDOFPS,kDOFTH,kDOFPH,kDOFT0,kDOFDV};\r
	33	//\r
7b85e477	34	AliITSAlignMille2Module(); \r
7b85e477	35	AliITSAlignMille2Module(UShort_t volid);\r
6be22b3f	36	AliITSAlignMille2Module(Int_t index, UShort_t volid, const char* symname, const TGeoHMatrix m, Int_t nsv=0, const UShort_t volidsv=NULL);\r
7b85e477	37	AliITSAlignMille2Module(const AliITSAlignMille2Module& rhs); // copy constructor\r
	38	AliITSAlignMille2Module& operator=(const AliITSAlignMille2Module& rhs); \r
	39	//\r
	40	virtual ~AliITSAlignMille2Module(); \r
	41	//\r
	42	// geometry methods \r
	43	Int_t GetIndex() const {return fIndex;} \r
	44	UShort_t GetVolumeID() const {return fVolumeID;} \r
	45	Int_t GetNSensitiveVolumes() const {return fNSensVol;} \r
	46	Int_t GetSensVolIndex(Int_t at) const {return fSensVolIndex[at];}\r
	47	Short_t GetSensVolVolumeID(Int_t at) const {return fSensVolVolumeID[at];}\r
	48	TGeoHMatrix *GetMatrix() const {return fMatrix;}\r
	49	void GetLocalMatrix(TGeoHMatrix& mat) const;\r
	50	UShort_t GetSensitiveVolumeVolumeID() const {return (UShort_t)fSensVolVolumeID.GetArray();}\r
	51	Float_t GetSigmaFactor(Int_t i) const {return fSigmaFactor[i];}\r
	52	Float_t GetSigmaXFactor() const {return fSigmaFactor[0];}\r
	53	Float_t GetSigmaYFactor() const {return fSigmaFactor[1];}\r
	54	Float_t GetSigmaZFactor() const {return fSigmaFactor[2];}\r
	55	Int_t GetNProcessedPoints() const {return fNProcPoints;}\r
6526a72c	56	Bool_t IsFreeDOF(Int_t dof) const {return fParCstr[dof]>0;}\r
	57	Bool_t AreSensorsProvided() const {return TestBit(1<<(kSensDefBit+1));}\r
	58	Bool_t GeomParamsGlobal() const {return TestBit(1<<(kGlobalGeomBit+1));}\r
7b85e477	59	Bool_t IsIn(UShort_t volid) const;\r
	60	Bool_t IsAlignable() const;\r
	61	Bool_t BelongsTo(AliITSAlignMille2Module* parent) const;\r
	62	AliITSAlignMille2Module* GetParent() const {return fParent;}\r
6526a72c	63	AliITSAlignMille2Module* GetChild(Int_t i) const {return (AliITSAlignMille2Module*)fChildren[i];}\r
	64	Int_t GetNChildren() const {return fChildren.GetLast()+1;}\r
	65	//\r
7b85e477	66	void Print(Option_t* opt="") const; \r
7b85e477	67	//\r
6526a72c	68	void EvaluateDOF();\r
	69	UShort_t GetNParTot() const {return fNParTot;}\r
	70	UShort_t GetNParFree() const {return fNParFree;}\r
	71	Float_t *GetParVals() const {return fParVals;}\r
	72	Double_t GetParVal(int par) const {return fParVals[par];}\r
	73	Double_t GetParErr(int par) const {return fParErrs[par];}\r
	74	Double_t GetParConstraint(int par) const {return fParCstr[par];}\r
	75	Int_t GetParOffset(Int_t par) const {return fParOffs[par];}\r
	76	Int_t GetDetType() const {return fDetType;}\r
	77	Bool_t IsParConstrained(Int_t par) const {return fParCstr[par]>0 && fParCstr[par]<fgkDummyConstraint;}\r
	78	Bool_t IsSPD() const {return fDetType == kSPD;}\r
	79	Bool_t IsSDD() const {return fDetType == kSDD;}\r
	80	Bool_t IsSSD() const {return fDetType == kSSD;}\r
	81	Bool_t IsSensor() const {return IsSensor(fVolumeID);}\r
	82	void SetDetType(Int_t tp) {fDetType = tp;}\r
	83	void SetParOffset(Int_t par,Int_t offs) {fParOffs[par] = offs;}\r
	84	//\r
	85	void SetParVals(Double_t *vl,Int_t npar); \r
	86	void SetParVal(Int_t par,Double_t v=0) {fParVals[par] = v;}\r
	87	void SetParErr(Int_t par,Double_t e=0) {fParErrs[par] = e;}\r
	88	void SetParConstraint(Int_t par,Double_t s=1e6) {fParCstr[par] = s>0. ? s:0.0;}\r
abd7ef79	89	void SetSigmaFactor(Int_t i,Float_t v) {fSigmaFactor[i]=TMath::Max(0.001F,v);}\r
	90	void SetSigmaXFactor(Float_t v) {SetSigmaFactor(0,v);}\r
	91	void SetSigmaYFactor(Float_t v) {SetSigmaFactor(1,v);}\r
	92	void SetSigmaZFactor(Float_t v) {SetSigmaFactor(2,v);}\r
7b85e477	93	void IncNProcessedPoints(Int_t step=1) {fNProcPoints += step;}\r
	94	void SetNProcessedPoints(Int_t v) {fNProcPoints = v;}\r
	95	void SetParent(AliITSAlignMille2Module* par) {fParent = par;}\r
6526a72c	96	void AddChild(AliITSAlignMille2Module* cld) {fChildren.Add(cld);}\r
	97	void SetFreeDOF(Int_t dof,Double_t cstr);\r
	98	void SetSensorsProvided(Bool_t v=kTRUE) {SetBit(1<<(kSensDefBit+1),v);}\r
	99	void SetGeomParamsGlobal(Bool_t v=kTRUE) {SetBit(1<<(kGlobalGeomBit+1),v);}\r
6be22b3f	100	Int_t Set(Int_t index,UShort_t volid, const char* symname, const TGeoHMatrix m,Int_t nsv=0, const UShort_t volidsv=0);\r
7b85e477	101	//\r
	102	void AddSensitiveVolume(UShort_t volid);\r
	103	void DelSensitiveVolume(Int_t at);\r
6526a72c	104	void DelSensitiveVolumes() {fNSensVol = 0;}\r
	105	//\r
	106	void GetGeomParamsGlo(Double_t *pars);\r
	107	void GetGeomParamsLoc(Double_t *pars);\r
7b85e477	108	//\r
	109	TGeoHMatrix *GetSensitiveVolumeMatrix(UShort_t voluid);\r
	110	TGeoHMatrix *GetSensitiveVolumeOrigGlobalMatrix(UShort_t voluid);\r
	111	TGeoHMatrix GetSensitiveVolumeModifiedMatrix(UShort_t voluid, Double_t delta,Bool_t local=kTRUE); \r
	112	AliAlignObjParams GetSensitiveVolumeMisalignment(UShort_t voluid, AliAlignObjParams a); \r
	113	AliAlignObjParams GetSensitiveVolumeMisalignment(UShort_t voluid, Double_t deltalocal); \r
	114	//\r
6526a72c	115	void GetGlobalParams(Double_t t, Double_t r);\r
	116	void GetGlobalParams(const Double_t loct, const Double_t locr,Double_t t, Double_t r);\r
	117	void GetLocalParams(const Double_t loct, const Double_t locr,Double_t t, Double_t r);\r
	118	//\r
	119	void GetSensVolGlobalParams(UShort_t volid,Double_t t, Double_t r);\r
	120	void GetSensVolLocalParams(UShort_t volid,Double_t t, Double_t r);\r
	121	void GetSensVolGlobalParams(UShort_t volid,Double_t* loct,Double_t* locr,Double_t t, Double_t r);\r
	122	void GetSensVolLocalParams(UShort_t volid,Double_t* loct,Double_t* locr,Double_t t, Double_t r);\r
	123	//\r
	124	void CalcDerivLocGlo(Double_t *deriv);\r
	125	void CalcDerivGloLoc(Int_t idx,Double_t *deriv);\r
	126	void CalcDerivGloLoc(Int_t sensVol,Int_t paridx,Double_t* derivative);\r
	127	void CalcDerivCurLoc(Int_t sensVol,Int_t paridx,Double_t* derivative);\r
6be22b3f	128	void CalcDerivDPosDPar(Int_t sensVol,const Double_t pl,Double_t deriv);\r
6526a72c	129	//\r
7b85e477	130	// forse non serve...\r
	131	AliAlignObjParams GetSensitiveVolumeGlobalMisalignment(UShort_t voluid, Double_t deltalocal); \r
	132	// mo' proviamo questo\r
	133	AliAlignObjParams GetSensitiveVolumeTotalMisalignment(UShort_t voluid, Double_t deltalocal); \r
	134	//\r
6526a72c	135	static Int_t GetIndexFromVolumeID(UShort_t volid);\r
7b85e477	136	static UShort_t GetVolumeIDFromSymname(const Char_t *symname);\r
7b85e477	137	static UShort_t GetVolumeIDFromIndex(Int_t index);\r
6526a72c	138	static Bool_t IsSensor(UShort_t vid);\r
abd7ef79	139	static Int_t SensVolMatrix(UShort_t volid, TGeoHMatrix *m); \r
	140	static Int_t SensVolOrigGlobalMatrix(UShort_t volid, TGeoHMatrix *m); \r
	141	\r
7b85e477	142	//\r
	143	protected:\r
	144	//\r
6526a72c	145	void AssignDetType();\r
7b85e477	146	//\r
	147	protected:\r
	148	//\r
	149	Int_t fNSensVol; // number of sensor it refers to\r
	150	Int_t fIndex; // aliroot index\r
6526a72c	151	Int_t fDetType; // Detector type\r
7b85e477	152	UShort_t fVolumeID; // aliroot volune ID\r
6526a72c	153	UShort_t fNParTot; // total number of parameters\r
	154	UShort_t fNParFree; // number of free parameters\r
	155	TArrayS fParOffs; // offsets of free params in the fit results\r
7b85e477	156	Int_t fNProcPoints; // number of processed points\r
7b85e477	157	Float_t fSigmaFactor[3]; // multiplicative factor for referred sensor X,Y,Z error\r
6526a72c	158	Float_t *fParVals; // values of the fitted params\r
	159	Float_t *fParErrs; // errors of the fitted params\r
	160	Float_t *fParCstr; // Gaussian type constraint on parameter, 0 means fixed param\r
7b85e477	161	//\r
	162	TArrayI fSensVolIndex; // aliroot indices for sensors\r
	163	TArrayS fSensVolVolumeID; // aliroot indices for sensors volumes\r
	164	TGeoHMatrix *fMatrix; // ideal TGeoHMatrix of the supermodule\r
	165	TGeoHMatrix *fSensVolMatrix; // sensor's ideal matrices\r
	166	TGeoHMatrix *fSensVolModifMatrix; // sensor's modified matrices\r
	167	//\r
	168	AliITSAlignMille2Module* fParent; // optional parent pointer\r
6526a72c	169	TObjArray fChildren; // array of optional children\r
7b85e477	170	//\r
6526a72c	171	static AliAlignObjParams fgTempAlignObj; // temp.alignment object used as a buffer \r
6526a72c	172	static const Float_t fgkDummyConstraint; // dummy (lose) contraint on parameter\r
7b85e477	173	//\r
	174	ClassDef(AliITSAlignMille2Module, 0)\r
	175	}; \r
	176	\r
	177	#endif \r