Subversion Repositories f9daq

Rev

Rev 54 | Rev 71 | Go to most recent revision | Blame | Compare with Previous | Last modification | View Log | RSS feed

#ifndef CVODNIK_H
#define CVODNIK_H

#include "TROOT.h"
#include "TVector3.h"
#include "TMath.h"
#include "TPolyLine3D.h"
#include "TRandom.h"
#include "TDatime.h"
#include "TH1F.h"
#include "TH2F.h"
#include "TColor.h"



#define MARGIN 1.0e-6
#define DEGREE 180.0/3.14159265358979312
#define MAX_REFLECTIONS 19


using namespace TMath;

const double c_reflectivity = 0.96;
const int REFRACTION = 1;
const int REFLECTION = 2;
const int TOTAL = 3;
const int ABSORBED = -2;
const TVector3 CENTER(-2.0, 0.0, 0.0);
const int nch = 50; // number of "channels" used as number of bins in histograms

enum Fate {missed=0, hitExit=1, refracted=-1, enter=2, noreflection=-2, backreflected=-3, rays=3, absorbed=4};

int dbg = 0;

//=================================================================================
// zarek (premica)
class CRay
{
public:
        CRay() :
          r(TVector3(0,0,0)),
          n(TVector3(1,0,0)),
          p(TVector3(0,1,0)),
          color(1)
        {};
        CRay(TVector3 r0, TVector3 n0) :
          r(r0),
          n(n0.Unit()),
          p(TVector3(0,1,0)),
          color(1)
        {};
        CRay(double x0, double y0, double z0, double l0, double m0, double n0) :
    r(TVector3(x0,y0,z0)),
    n(TVector3(l0,m0,n0).Unit()),
    p(TVector3(0,1,0)),
    color(1)
  {};

        void Set(TVector3 r0, TVector3 n0);
        //void Set(double x0, double y0, double z0, double l0, double m0, double n0);
        void SetColor(int c){color = c;};
        void SetPolarization(TVector3 p0) {p = p0.Unit();};
       
        //inline CRay & operator = (const CRay &);

        TVector3 GetR() const {return r;};
        TVector3 GetN() const {return n;};
        TVector3 GetP() const {return p;};
       
        void Print();
        void Draw();
        void Draw(double x_from, double x_to);
        void DrawS(double x_from, double t);
       
private:
        TVector3 r;
        TVector3 n;
        TVector3 p; //r = point on line, n = normal, p = polarization
        int color;
};
//=================================================================================


//=================================================================================
// ravnina, definirana in omejena s 4 tockami na njej (stirikotni poligon)
// zanasam se na taksno definicijo: (normala kaze noter)
// r1----->r2
// ^        |
// |        |
// |        |
// |        �
// r0<-----r3
class CPlane4
{

public:
        CPlane4();
        CPlane4(TVector3 r1, TVector3 r2, TVector3 r3, TVector3 r4);
        CPlane4(TVector3 *vr);
        void Set(TVector3 r1, TVector3 r2, TVector3 r3, TVector3 r4);
        void Set(TVector3 *vr) {Set(vr[0], vr[1], vr[2], vr[3]);};
        void FlipN(){n = -n;};

        int GetIntersection(TVector3 *vec, CRay ray);
        int IsInTri(TVector3 vec, TVector3 e1, TVector3 e2, double);
        int IsVectorIn(TVector3 vec);
        int TestIntersection(CRay in); // ray in & ??? plane
        int TestIntersection(TVector3 *vec, CRay in); // plane defined with normal vec and ray in
       
        TVector3 GetN() {return n;};

        void Print();
        void Draw(int color = 1, int width = 1);
       
        private:
        TVector3 r[4], n;
        double A, B, C, D;
        TVector3 edge[4]; // vektorji stranic
        double angle_r[4]; // koti ob posameznem vogalu
};
//=================================================================================


//=================================================================================
// ravna opticna povrsina: refractor, zrcalo ali povrsina s totalnim odbojem
#define SURF_DUMMY 0
#define SURF_REFRA 1
#define SURF_REFLE 2
#define SURF_TOTAL 3
//#define SURF_TOTAL 1
#define SURF_IMPER 4
//#define SURF_DIFUS 5

class CSurface : public CPlane4
{

public:
        CSurface(int type0 = 0);
        CSurface(int type0, TVector3 r1, TVector3 r2, TVector3 r3, TVector3 r4,
                         double n10, double n20, double reflectivity);
        CSurface(int type0, TVector3 *vr,  double n10, double n20, double reflectivity);

        void SetV(TVector3 *vr){CPlane4::Set(vr);};
        void SetType(int type0){type = type0;};
        void SetIndex(double n10, double n20);
        void SetReflection(double reflectivity){reflection = reflectivity;};
        void SetFresnel(int f = 1) {fresnel = f;};

        void Set(int type0, TVector3 *vr, double n10, double n20, double reflectivity)
                {type = type0; CPlane4::Set(vr); SetIndex(n10, n20); reflection = reflectivity;};
        void Set(int type0, TVector3 r1, TVector3 r2, TVector3 r3, TVector3 r4, double n10, double n20, double reflectivity)
                {type = type0; CPlane4::Set(r1, r2, r3, r4); SetIndex(n10, n20); reflection = reflectivity;};

        int PropagateRay(CRay in, CRay *out, TVector3 *intersection);
       
        double N1_N2(int sign) { return ((sign > 0) ? n1/n2 : n2/n1);};

        void Print(){printf("Type = %d\n", type); CPlane4::Print();};
       
        private:
        int type; //0 = dummy; 1 = refractor; 2 = reflector; 3 = total reflection
        double n1, n2, n1_n2; //index of refraction, n1 @ +normal, n2 @ -normal
        double reflection; // odbojnost stranic
        TRandom rand; // za racunanje verjetnosti odboja od zrcala
        double cosTtotal; //cosinus mejnega kota totalnega odboja za dana n1 in n2
       
        int fresnel; // ali naj uposteva Fresnelove enacbe
};
//=================================================================================

               
//=================================================================================
//    +-------   n1                
//    |       -------              
//    |          n2  ----+        
//    |                  |        
//   0| M*SiPM           | SiPM    
//    |                  |        
//    |              ----+        
//    |       ------R              
//    +-------                    
//    <-------- d ------->        
//                                



int RCol(int col, int solid);


class DetectorParameters
{
public:
  DetectorParameters(double a, double b, double d, double active, double n1, double n2, double n3, TVector3 gap):
  _a(a),
  _b(b),
  _d(d),
  _active(active),
  _n1(n1),
  _n2(n2),
  _n3(n3),
  _gap(gap),
  _fresnel(1),
  _guideOn(1),
  offsetY(b/2.0),
  offsetZ(b/2.0),
    _plateOn(1),
  _plateWidth(1),
  _glassOn(0),
  _glassD(0)
  {};
  DetectorParameters(double a, double b, double d):
  _a(a),
  _b(b),
  _d(d),
  _active(a),
  _n1(1.0),
  _n2(1.53),
  _n3(1.46),
  _gap(TVector3(0,0,0)),
  _fresnel(1),
  _guideOn(1),
  offsetY(b/2.0),
  offsetZ(b/2.0),
  _plateOn(1),
  _plateWidth(1),
  _glassOn(0),
  _glassD(0)
  {};
  ~DetectorParameters() {};
 
  void setGuide(double a, double b, double d) {
    _a = a;
    _b = b;
    //_M = b/a;
    _d = d;
    };
  void setGap(double x, double y, double z) { _gap = TVector3(x,y,z); };
  void setFresnel(int fresnel) { _fresnel = fresnel; };
  void setGlass(int glassOn, double glassD) { _glassOn = glassOn; _glassD = glassD; };
  void setGuideOn(int guideOn) { _guideOn = guideOn; };
  void setPlate(int plateOn, double plateWidth) { _plateOn = plateOn; _plateWidth = plateWidth; };
  void setIndices(double n1, double n2, double n3) { _n1 = n1; _n2 = n2; _n3 = n3; };

  double getLightYield() { return ( Power(_b,2)/Power(_active,2)); };
  double getM() { return (_b/_a); };
  double getA() {return _a;};
  double getB() {return _b;};
  double getD() {return _d;};
  double getN1() {return _n1; };
  double getN2() {return _n2;};
  double getN3() {return _n3;};
  double getActive() {return _active;};
  TVector3 getGap() {return _gap;};
  double getPlateWidth() {return _plateWidth; };
  int getFresnel() { return _fresnel; };
  int getGlassOn() { return _glassOn; };
  double getGlassD() { return _glassD; };
  int getGuideOn() { return _guideOn; };
  int getPlateOn() { return _plateOn; };
  double getOffsetY() { return offsetY; };
  double getOffsetZ() { return offsetZ; };
 
private:
  double _a;
  double _b;
  double _d;
  double _active;
  double _n1;
  double _n2;
  double _n3;
  TVector3 _gap;
 
  int _fresnel;
 
  int _guideOn;
  double offsetY;
  double offsetZ;
 
  int _plateOn;
  double _plateWidth;
 
  int _glassOn;
  double _glassD;
 
};

class Guide
{
public:
        Guide(TVector3 center0, DetectorParameters& parameters);
        ~Guide() {
          for (int jk=0; jk<6; jk++) delete s_side[jk];
          delete hfate;
          delete hnodb_all;
          delete hnodb_exit;
          delete hin;
          delete hout;
        }
       
        Fate PropagateRay(CRay in, CRay *out, int *n_points, TVector3 *points);
       
        double getD() { return _d; }
        double getN1() { return n1; };
        double getN2() { return n2; };
        double getN3() { return n3; };
        TH1F* GetHFate() const {return hfate;};
        TH1F* GetHNOdb_all() const {return hnodb_all;};
        TH1F* GetHNOdb_exit() const {return hnodb_exit;};
        TH2F* GetHIn() const {return hin;};
        TH2F* GetHOut() const {return hout;};
        int GetExitHits() {return (int)hfate->GetBinContent(5);};
        int GetEnteranceHits() {return (int)hfate->GetBinContent(6);};
        void GetVFate(int *out);
        int GetMAXODB() const {return MAX_REFLECTIONS;};
       
        void Draw(int color = 1, int width = 1);
        void DrawSkel(int color = 1, int width = 1);
       
private:
  Fate fate;
        double _d; // parameters
        double n1, n2, n3; // refractive index: n1 above entry surface, n2 inside, n3 after exit
        double _r;
        double absorption;
        double A;
        TRandom rand; // for material absorption
        CSurface *s_side[6];
        TVector3 center, vodnik_edge[8];
       
        TH1F *hfate, *hnodb_all, *hnodb_exit;
        TH2F *hin, *hout;
};
//=================================================================================

//=============================================================================================================================== <<<<<<<<
// ravnina - krog
class CPlaneR
{

        public:
                CPlaneR(TVector3 c, TVector3 n0, double R0)
                {center = c; n = n0; _r = R0;};
       
                void Set(TVector3 c, TVector3 n0, double R0)
                {center = c; n = n0; _r = R0;};
       
                int TestIntersection(TVector3 *vec, CRay in);
       
                void Draw(int color = 1, int NN = 32);
               
        private:
                TVector3 n, center;
                double _r;
};
//=================================================================================

class Plate
{
public:
  Plate(DetectorParameters& parameters);
  ~Plate() {
    for (int jk=0; jk<6; jk++) delete sides[jk]; // the same, needs solution
  };
 
  void draw(int color, int width);
  void drawSkel(int color, int width);
  Fate propagateRay(CRay, CRay*, int*, TVector3*);
 
private:
        TVector3 plate_edge[8];
        CSurface *sides[6];
};

// ================================================================================

class CDetector
{
public:
        CDetector(TVector3 center0, DetectorParameters& parameters);
        ~CDetector() {
          delete glass;
          delete glass_circle;
          delete hglass;
    delete active;
          delete hactive;
          delete hlaser;
          delete detector;
          delete hdetector;
          delete guide;
          delete plate;
          delete histoPlate;
          //delete window;
          //delete window_circle;
          //delete hwindow;
        }

        //void SetLGType(int in = SURF_REFRA, int side = SURF_REFRA, int out = SURF_REFRA)
        //      {type_in = in; type_side = side; type_out = out;};

/*      void SetLG(double SiPM0, double M0, double d0, double n10, double n20, double n30, double R0)
        { SiPM=SiPM0;
                M=M0;
                d=d0;
                n1=n10;
                n2=n20;
                n3=n30;
                R=R0;
                }; */

        //void SetR(double R0) {R = R0;};
        //void SetGlass(int glass_on0, double glass_d0)
                //{glass_on = glass_on0; glass_d = glass_d0;};
        //void SetGap(double x_gap0, double y_gap0, double z_gap0)
                //{x_gap = x_gap0; y_gap = y_gap0; z_gap = z_gap0;};   
        void SetRCol(int in, int lg, int out, int gla)
                {col_in = in; col_lg = lg; col_out = out; col_rgla = gla;};
        void SetDCol(int LG0, int glass0, int active0)
                {col_LG = LG0; col_glass = glass0; col_active = active0;};
        //void SetFresnel(int b)
                //{fresnel = b;};
        //void SetAbsorption(int b, double A0)
                //{absorption = b; A = A0;};
        //void SetWindow(double wR, double d0) {window_R = wR; window_d = d0;};
        //void SetGuideOn(int b)
                //{guide_on = b;};

        //void Init();

        int Propagate(CRay, CRay*, int);

        Guide* GetLG() const {return guide;};
        //TH2F* GetHWindow() const {return hwindow;};
        TH2F* GetHGlass() const {return hglass;};
        TH2F* GetHActive() const {return hactive;};
        TH2F* GetHLaser() const {return hlaser;};
        TH2F* GetHDetector() const {return hdetector;};
        TH2F* GetHPlate() const {return histoPlate;};
       
        //double GetSiPM() const {return SiPM;};
        //double GetM() const {return M;};
        //double GetD() const {return d;};
        //double GetR() const {return R;};
        //TVector3 GetVGap() const {return (TVector3(x_gap, y_gap, z_gap));};
        //int IsGlass() {return glass_on;};
        //double GetGlass() {return glass_d;};
        //double GetWindowR() {return window_R;};
        //double GetWindowD() {return window_d;};

        void Draw(int width = 2);
       
        private:
        Fate fate;
        TVector3 center;

        //int type_in, type_side, type_out;
        //double SiPM, M, d, n1, n2, n3, R;
        //double detectorActive;
       

        int glass_on;
        double glass_d;
        CSurface *glass;
        CPlaneR *glass_circle;
        TH2F *hglass;

        //double x_gap, y_gap, z_gap;
        CPlane4 *active;
        TH2F *hactive, *hlaser;

        CPlane4 *detector;
        TH2F *hdetector;
       
        int col_in, col_lg, col_out, col_rgla;
        int col_LG, col_glass, col_active;
       
        //int fresnel, absorption;
        //double A;
       
        int guide_on;
       
        //double window_R, window_d;
        //CSurface *window;
        //CPlaneR *window_circle;
        //TH2F *hwindow;
       
        Guide *guide;
        Plate *plate;
       
        double _plateWidth;
        int _plateOn;
       
        TH2F *histoPlate;
       
        double offsetY;
        double offsetZ;
};



//=================================================================================
#endif