#include <TObject.h>
#include <TRandom.h>
-
-#include <AliAlignObj.h>
+#include <TObjString.h>
+#include <TGeoManager.h>
+#include <AliGeomManager.h>
class AliTRDalignment : public TObject {
AliTRDalignment();
AliTRDalignment(const AliTRDalignment& source);
AliTRDalignment& operator=(const AliTRDalignment& source);
+ AliTRDalignment& operator*=(double fac);
AliTRDalignment& operator+=(const AliTRDalignment& source);
AliTRDalignment& operator-=(const AliTRDalignment& source);
Bool_t operator==(const AliTRDalignment& source) const;
- virtual ~AliTRDalignment() {}; // destructor
+ virtual ~AliTRDalignment() {};
// setting
void SetSmZero(); // reset to zero supermodule data
void SetChZero(); // reset to zero chamber data
- void SetZero() {SetSmZero(); SetChZero();} // reset to zero both
- void SetSm(Int_t sm, const Double_t a[6]) { for (int i = 0; i < 6; i++) fSm[sm][i] = a[i]; }
- void SetCh(Int_t ch, const Double_t a[6]) { for (int i = 0; i < 6; i++) fCh[ch][i] = a[i]; }
- void SetSmRandom(Double_t a[6]); // generate random gaussians with sigmas a
- void SetChRandom(Double_t a[6]); // generate random gaussians with sigmas a
+ void SetSm(int sm, const double a[6]) {for (int i = 0; i < 6; i++) fSm[sm][i] = a[i];}
+ void SetCh(int ch, const double a[6]) {for (int i = 0; i < 6; i++) fCh[ch][i] = a[i];}
+ void SetSmRandom(double a[6]); // generate random gaussians with sigmas a
+ void SetChRandom(double a[6]); // generate random gaussians with sigmas a
void SetSmFull(); // set supermodule data to initial aka full
void SetChFull(); // set chamber data to initial aka full
void SetSmResidual(); // set supermodule data to final aka residual
void SetChResidual(); // set chamber data to final aka residual
- void SetFull() {SetSmFull(); SetChFull();}
- void SetResidual() {SetSmResidual(); SetChResidual();}
+ void SetZero() {SetSmZero(); SetChZero();}
+ void SetIdeal() {SetZero();}
+ void SetFull() {SetSmFull(); SetChFull();}
+ void SetResidual() {SetSmResidual(); SetChResidual();}
+ void SetComment(char *s) {fComment.SetString(s);}
// dumping on screen
- void PrintSm(Int_t sm, FILE *fp = stdout) const; // print data of a supermodule
- void PrintCh(Int_t sm, FILE *fp = stdout) const; // print data of a chamber
- void PrintSm(FILE *fp = stdout) const { for (int i = 0; i < 18; i++) PrintSm(i,fp); }
- void PrintCh(FILE *fp = stdout) const { for (int i = 0; i < 540; i++) PrintCh(i,fp); }
- void Print(FILE *fp = stdout) const { PrintSm(fp); PrintCh(fp); }
- void Print(Option_t *) const { Print(); }
+ void PrintSm(int sm, FILE *fp = stdout) const; // print data of a supermodule
+ void PrintCh(int sm, FILE *fp = stdout) const; // print data of a chamber
+ void PrintSm(FILE *fp = stdout) const {for (int i = 0; i < 18; i++) PrintSm(i,fp);}
+ void PrintCh(FILE *fp = stdout) const {for (int i = 0; i < 540; i++) PrintCh(i,fp);}
+ void Print(FILE *fp = stdout) const {PrintSm(fp); PrintCh(fp); }
+ void Print(Option_t *) const {Print(); }
// reading-in from file
void ReadAscii(char *filename); // read from ascii file
+ void ReadCurrentGeo(); // read from currently loaded geometry
void ReadRoot(char *filename); // read from root file
void ReadDB(char *filename); // read from DB file
- void ReadDB(char *db, char *path, Int_t run, Int_t version=-1, Int_t subversion=-1);
- void ReadGeo(char *misaligned); // read from misaligned_geometry.root
+ void ReadDB(char *db, char *path, int run, int version=-1, int subversion=-1);
void ReadSurveyReport(char *filename); // read from survey report
void ReadAny(char *filename); // read from any kind of file
void WriteAscii(char *filename) const; // store data on ascii file
void WriteRoot(char *filename); // store data on root file
- void WriteDB(char *filename, char *comment, Int_t run0, Int_t run1);
- // store data on a local DB-like file
- void WriteDB(char *db, char *path, char *comment, Int_t run0, Int_t run1);
- // store data on DB file
+ void WriteDB(char *filename, int run0, int run1); // store data on a local DB-like file
+ void WriteDB(char *db, char *pa, int r0, int r1); // store data on DB file
void WriteGeo(char *filename); // apply misalignment and store geometry
// geometry and symbolic names getters
// phi-sector number of chamber ch, 0-17
- Int_t GetSec(Int_t ch) const { return ch/30; }
+ int GetSec(int ch) const {return ch/30;}
// stack number, 0-4
- Int_t GetSta(Int_t ch) const { return ch%30/6; }
- // plane number, 0-5
- Int_t GetPla(Int_t ch) const { return ch%30%6; }
+ int GetSta(int ch) const {return ch%30/6;}
+ // plane number, 0-5
+ int GetPla(int ch) const {return ch%30%6;}
// module number, 0-89
- Int_t GetMod(Int_t ch) const { return 5*GetSec(ch)+GetSta(ch); }
+ int GetMod(int ch) const {return 5*GetSec(ch)+GetSta(ch);}
// layer number, 9-14
- Int_t GetLay(Int_t ch) const { return AliAlignObj::kTRD1+GetPla(ch); }
+ int GetLay(int ch) const {return AliGeomManager::kTRD1+GetPla(ch);}
// volume id
- UShort_t GetVoi(Int_t ch) const { return AliAlignObj::LayerToVolUID(GetLay(ch),GetMod(ch)); }
- char *GetSmName(Int_t sm) const { return Form("TRD/sm%02d",sm); }
- char *GetChName(Int_t ch) const { return Form("TRD/sm%02d/st%d/pl%d",GetSec(ch),GetSta(ch),GetPla(ch)); }
+ UShort_t GetVoi(int ch) const {return AliGeomManager::LayerToVolUID(GetLay(ch),GetMod(ch));}
+ // symbolic name of a supermodule
+ char *GetSmName(int sm) const {return Form("TRD/sm%02d",sm);}
+ // symbolic name of a chamber
+ char *GetChName(int ch) const {return Form("TRD/sm%02d/st%d/pl%d",GetSec(ch),GetSta(ch),GetPla(ch));}
+ // index of a supermodule
+ int GetSmIndex(const char *name) {for (int i=0; i<18; i++) if (strcmp(name,GetSmName(i))==0) return i; return -1;}
+ // index of a chamber
+ int GetChIndex(const char *name) {for (int i=0; i<540; i++) if (strcmp(name,GetChName(i))==0) return i; return -1;}
// data analysis
- Double_t GetSmRMS(Int_t xyz) const; // calculate rms fSm[*][xyz]
- Double_t GetChRMS(Int_t xyz) const; // calculate rms fCh[*][xyz]
- void PrintSmRMS() const; // print rms of fSm
- void PrintChRMS() const; // print rms of fCh
- void PrintRMS() const { PrintSmRMS(); PrintChRMS();}
+ double GetSmRMS(int xyz) const; // calculate rms fSm[*][xyz]
+ double GetChRMS(int xyz) const; // calculate rms fCh[*][xyz]
+ void PrintSmRMS() const; // print rms of fSm
+ void PrintChRMS() const; // print rms of fCh
+ void PrintRMS() const {PrintSmRMS(); PrintChRMS();}
+
+ double SurveyChi2(int i, double *a); // compare survey with ideal, return chi2
+ double SurveyChi2(double *a) {return SurveyChi2(fIbuffer[0],a);}
+ void SurveyToAlignment(int i, char *flag); // determine alignment of supermodule i based on survey
protected:
- void ArToNumbers(TClonesArray *ar); // read ar and fill fSm and fCh
- void NumbersToAr(TClonesArray *ar); // build ar using fSm and fCh data
- void LoadIdealGeometry(char *filename); // load ideal geometry from file
- void LoadIdealGeometry() {LoadIdealGeometry("geometry.root");}
+ void ArToNumbers(TClonesArray *ar); // read ar and fill fSm and fCh
+ void NumbersToAr(TClonesArray *ar); // build ar using fSm and fCh data
+ int IsGeoLoaded(); // check if geometry is loaded
protected:
- Double_t fSm[18][6]; // supermodule data
- Double_t fCh[540][6]; // chamber data
- TRandom fRan; // random generator for fake alignment data
+ double fSm[18][6]; // supermodule data
+ double fCh[540][6]; // chamber data
+ TObjString fComment; // info concerning origin of the data etc.
+ TRandom fRan; // random generator for fake alignment data
+
+ // Temporary storage for ideal position of the survey points and the survey data.
+ // The survey data are in master frame and in cm. Each supermodule has 8 survey marks.
+ // The indices are sm number, z-end, radius, phi.
+ // The ideal positions of survey points are in local frame of supermodule and in cm.
+ // The indices are z-end, radius, phi.
+ // The processed survey results are stored in fSm.
+ double fSurveyX[18][2][2][2]; // supermodule survey point X
+ double fSurveyY[18][2][2][2]; // supermodule survey point Y
+ double fSurveyZ[18][2][2][2]; // supermodule survey point Z
+ double fSurveyE[18][2][2][2]; // supermodule survey point error
+ double fSurveyX0[2][2][2]; // ideal X position of the survey marks
+ double fSurveyY0[2][2][2]; // ideal Y position of the survey marks
+ double fSurveyZ0[2][2][2]; // ideal Z position of the survey marks
+ int fIbuffer[1000]; // generic buffer for misc. operations
+ double fDbuffer[1000]; // generic buffer for misc. operations
ClassDef(AliTRDalignment,1)
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff