dd/ded/MucGas_8cxx_source.html

//------------------------------------------------------------------------------|

//      [File  ]:                       MucGas.cxx                          |

//      [Brief ]:       MUC geometry mixture gas creating class         |

//      [Author]:       Xie Yuguang, <[email protected]>                    |

//      [Date  ]:       May 22, 2005                                            |

//------------------------------------------------------------------------------|


#include <iostream>

#include <cmath>


#include "MucGeoCreateAlg/MucGeoConst.h"

#include "MucGeoCreateAlg/MucGas.h"


using namespace std;


// Constructor


MucGas::MucGas( int part, int segment, int layer, int upDown, int rpcId, int id )

    : MucEntity( part, segment, layer, upDown, rpcId, id )

{

    MucGas::Init();

}


// Copy constructor


MucGas::MucGas( const MucGas &other ) : MucEntity( other )

{

    m_Phi       = other.m_Phi;

}


// Operator =


MucGas& MucGas::operator =( const MucGas &other )

{

    if( this == &other)

                return *this;


    MucEntity::operator =(other);


    m_Phi           = other.m_Phi;


        return *this;

}


// Destructor


MucGas::~MucGas()

{

    ;

}


// Initialize


void MucGas::Init()

{

    SetPhi();

        SetTheta();

        SetRin();

        SetRout();

        SetRc();


        SetThin();

        SetW();

        SetWu();

        SetWd();

        SetH();

        SetL();


    SetEndcapRpcInBes();

    SetBarrelRpcInBes();


        SetLocOrgInBes();

        SetObjOrgInBes();

        SetObjOrgInLoc();

}


// -------------------------- Get methods ----------------------------


double MucGas::GetPhi()     {    return m_Phi;      }


// ---------------------------Set motheds -----------------------------


// Set inclination angle of local coordinate x axis and global coordinate x axis


void MucGas::SetPhi()

{

        if( m_Part == BRID )

                m_Phi = B_PHI[m_Segment] * (MUC_PI/4.0);

        else

        m_Phi = 0.;

}


void MucGas::SetTheta()

{

        if( m_Part == BRID )

                m_Theta = m_Segment * (MUC_PI/4.0);

        else

        {

                if( m_UpDown == SL_UP )

                        m_Theta = ( MUC_PI/4.0 ) + (1 - m_RpcId) * MUC_PI / 8.0 ;

                else

        {

                        if( m_RpcId < 2 ) // RPC NO.1 and NO.2

                                m_Theta = ( MUC_PI/4.0 ) + MUC_PI / 8.0 ;

                        else if ( m_RpcId == 2 ) // center RPC, NO.3

                                m_Theta = ( MUC_PI/4.0 ) ;

                        else

                                m_Theta = ( MUC_PI/4.0 ) - MUC_PI / 8.0 ;

        }

        }

}


void MucGas::SetRin()

{


        if( m_Part == BRID ) // Rin of gas( same as which of RPC )

                m_Rin = B_AS_RMIN[m_Layer] - AS_GAP/2.0 + (1-2*m_UpDown) * (STR_TH + RPC_TH)/2.0 - GAS_TH/2.0;

        else  // Rin of RPC

                m_Rin = E_GP_RMIN[m_Layer] + E_STRPLN_DR + (1-m_UpDown)*RPC_SL_OFFSET;

}


void MucGas::SetRout()

{

        if( m_Part == BRID )

                m_Rout = B_AS_RMIN[m_Layer] - AS_GAP/2.0 + (1-2*m_UpDown) * (STR_TH + RPC_TH)/2.0 + GAS_TH/2.0;

        else

                m_Rout = E_AS_RMAX - E_BOX_DR - E_STRPLN_DB[(m_Layer==0)?0:1] + (m_UpDown-1)*RPC_SL_OFFSET;

}


void MucGas::SetRc()

{

        m_Rc = (m_Rin + m_Rout)/2.0;

}


void MucGas::SetThin()

{

        m_Thin = GAS_TH;

}


void MucGas::SetW()

{

        if( m_Part == BRID)

        {

        if( m_Segment == B_TOP && m_RpcId < 2 )     // the first 2 gases in top segment

        {

                        if( (m_Layer+1)%2 == 1 ) // odd layer

                            m_W = (B_BOX_WT[m_Layer] - 2*B_BOX_DT[m_UpDown] - 2*B_BOX_DZ[m_UpDown] - B_BOX_SLOT_WT)/2.0;

                        else             // even layer

                                m_W = (B_BOX_WT[m_Layer] - 4*B_BOX_DZ[m_UpDown] - B_BOX_SLOT_WT)/2.0;

        }

        else                    // other gases

        {

                        if( (m_Layer+1)%2 ==1 )  // odd layer

                                m_W = B_BOX_WT[m_Layer] - 2 * B_BOX_DT[m_UpDown];

                        else             // even layer

                                m_W = B_BOX_WT[m_Layer] - 2 * B_BOX_DZ[m_UpDown];


        }

        } // end barrel

        else

        {

        if( m_UpDown == SL_UP ) // up layer

        {   if( m_RpcId == 0 )

                m_W = VALUE * m_Rc - E_GP_DX - E_STRPLN_DA - RPC_SL_OFFSET;

            else if ( m_RpcId == 1 )

                m_W = 2 * VALUE * m_Rc;

            else

                m_W = VALUE * m_Rc - E_GP_DY - E_STRPLN_DA - RPC_SL_OFFSET;

        }

        else // down layer

        {

            switch( m_RpcId )

            {

                case 0:

                    m_W = VALUE * m_Rc - E_GP_DX - E_STRPLN_DA;

                    break;

                case 1:

                case 3:

                    m_W = VALUE * ( m_Rc - m_Rin );

                    break;

                case 2:

                    m_W = 2 * VALUE * m_Rin;

                    break;

                case 4:

                    m_W = VALUE * m_Rc - E_GP_DY - E_STRPLN_DA;

                    break;

                default: ;

            }

        }


        } // else, endcap


        // cut rpc chamber death edge

        if( m_Part == BRID )

                m_W -= RPC_DEATH_EDGE * 2.0;

        else

        {

                if( m_UpDown == SL_UP )

                {

                        if( m_RpcId == 1 ) m_W -= RPC_DEATH_EDGE * 2.0; // center rpc

                        else            m_W -= ( 1 + 1.0/cos(MUC_PI/8.0) ) * RPC_DEATH_EDGE;

                }

                else

                {

                        if( m_RpcId == 2 ) // center rpc

                                m_W -= RPC_DEATH_EDGE * 2.0;

                        else // DOWN 0,1,3,4 RPC

                                m_W -= RPC_DEATH_EDGE;

                }

        }

}


void MucGas::SetH()

{

        if( m_Part == BRID )

                m_H = GAS_TH;

        else

        {

        m_H = m_Rout - m_Rin;


                // cut rpc chamber death edge

                if( m_UpDown == SL_DOWN && (m_ID == 1 || m_ID == 3) )

                        m_H -= RPC_DEATH_EDGE * (1 + 1.0/VALUE);

                else

                        m_H -= RPC_DEATH_EDGE * 2.0;

        }

}


void MucGas::SetL()

{

        if( m_Part == BRID ) // barrel

    {

        if( m_Segment != B_TOP ) // not top segment

        {

            // the first rpc of SL_DOWN is constructed as the same as the last rpc of SL_UP

            if( (m_UpDown == SL_UP && m_RpcId == 3) || (m_UpDown == SL_DOWN && m_RpcId == 0) )

            {

                if( m_Layer != 1 ) // not layer NO.2

                    m_L = B_BOX_LT - 2*B_BOX_DZ[m_UpDown] - 3*B_RPC_LTN;

                else           // layer NO.2 is special

                    m_L = B_BOX_LT - 2*B_BOX_DZ[m_UpDown] - 3*B_RPC_LTS;

            }

            else

            {

                if( m_Layer != 1 ) // not layer NO.2

                    m_L = B_RPC_LTN;

                else           // layer NO.2 is special

                    m_L = B_RPC_LTS;

            }

        }

        else // top segment

        {

            if( m_RpcId < 2 ) // RPC NO.1 and NO.2

            {

                m_L = B_TOPRPC_LTS[ ((m_Layer == 0)?1:(m_Layer%2)) ];

            }

            else if( (m_UpDown == SL_UP && m_RpcId == 4) || (m_UpDown == SL_DOWN && m_RpcId == 2) )

            {

                m_L = B_BOX_LT - B_TOPRPC_LTS[ ((m_Layer == 0)?1:(m_Layer%2)) ] - 2*(B_BOX_DZ[m_UpDown]+B_RPC_LTN);

            }

            else

                m_L = B_RPC_LTN;


        } // else, top segment


        m_L -= RPC_DEATH_EDGE * 2.0;    // cut rpc chamber death edge


    } // if, barrel

        else // endcap

    {

                m_L = GAS_TH;

    }


}


void MucGas::SetWu()

{

        if( m_Part == BRID )

                m_Wu = m_W;

        else

        {

        if( m_UpDown == SL_UP )

        {

            if( m_RpcId == 0 )

                m_Wu = VALUE * m_Rin - E_GP_DX - E_STRPLN_DA - RPC_SL_OFFSET;

            else if( m_RpcId == 1 )

                m_Wu = 2.0* VALUE * m_Rin;

            else

                m_Wu = VALUE * m_Rin - E_GP_DY - E_STRPLN_DA - RPC_SL_OFFSET;

        }

        else

        {

            switch( m_RpcId )

            {

                case 0:

                    m_Wu = VALUE * m_Rin - E_GP_DX - E_STRPLN_DA;

                    break;

                case 1:

                case 3:

                    m_Wu = 0.;

                    break;

                case 2:

                    m_Wu = 2.0* VALUE * m_Rin;

                    break;

                case 4:

                    m_Wu = VALUE * m_Rin - E_GP_DY - E_STRPLN_DA;

                    break;

                default: ;

            }

        }


                // cut rpc chamber death edge

                if( m_Wu > 0.0 )

                {

                        if( m_UpDown == SL_UP )

                        {

                                if( m_RpcId == 1 ) m_Wu -= RPC_DEATH_EDGE * 2.0; // center rpc

                                else            m_Wu -= ( 1 + 1.0/cos(MUC_PI/8.0) ) * RPC_DEATH_EDGE;

                        }

                        else

                        {

                                if( m_RpcId == 2 ) // center rpc

                                        m_Wu -= RPC_DEATH_EDGE * 2.0;

                                else // DOWN 0,4 RPC

                                        m_W -= RPC_DEATH_EDGE;

                        }

                }

        } // else, endcap

}


void MucGas::SetWd()

{

     if( m_Part == BRID )

                m_Wd = m_W;

        else

        {

                if( m_UpDown == SL_UP )

                {

                        if( m_RpcId == 0 )

                                m_Wd = VALUE * m_Rout - E_GP_DX - E_STRPLN_DA - RPC_SL_OFFSET;

            else if( m_RpcId == 1 )

                m_Wd = 2.0* VALUE * m_Rout;

            else

                m_Wd = VALUE * m_Rout - E_GP_DY - E_STRPLN_DA - RPC_SL_OFFSET;

                }

                else

                {

                        switch( m_RpcId )

                        {

                                case 0:

                                        m_Wd = VALUE * m_Rout - E_GP_DX - E_STRPLN_DA;

                                        break;

                                case 1:

                                case 3:

                                        m_Wd = VALUE * (m_Rout - m_Rin);

                                        break;

                                case 2:

                                        m_Wd = 2.0 * VALUE * m_Rin;

                                        break;

                                case 4:

                                        m_Wd = VALUE * m_Rout - E_GP_DY - E_STRPLN_DA;

                                        break;

                                default: ;

                        }

                }


                // cut rpc chamber death edge

                if( m_UpDown == SL_UP )

                {

                        if( m_RpcId == 1 ) m_Wd -= RPC_DEATH_EDGE * 2.0; // center rpc

                        else            m_Wd -= ( 1 + 1.0/cos(MUC_PI/8.0) ) * RPC_DEATH_EDGE;

                }

                else

                {

                        if( m_RpcId == 2 ) // center rpc

                               m_Wd -= RPC_DEATH_EDGE * 2.0;

                        else // DOWN 0,4 RPC

                               m_Wd -= RPC_DEATH_EDGE;

                }


        } // else, endcap

}


// Set barrel rpc in BES CS


int MucGas::SetBarrelRpcInBes()

{

        if( m_Part != BRID ) return 0;


        double x, y, z;

        x = y = z = 0.;


        if( m_Segment != B_TOP )

        {

            // set x and y

                double r;

        r = (B_AS_RMIN[m_Layer] - AS_GAP/2.0) + (1-2*m_UpDown)*(STR_TH + RPC_TH)/2.0;

                x = r * cos( m_Theta );

                y = r * sin( m_Theta );


                // set z

                if( (m_UpDown == SL_UP && m_RpcId == 3) || (m_UpDown == SL_DOWN && m_RpcId == 0) )

                {

                    if( m_Layer != 1 ) // not layer NO.2

                        z = (2*m_UpDown - 1) * 3 * B_RPC_LTN/2.0;

                        else

                                z = (2*m_UpDown - 1) * 3 * B_RPC_LTS/2.0;

                }

                else if( m_UpDown == SL_UP )

                        z = B_BOX_LT/2.0 - B_BOX_DZ[m_UpDown] - (1+2*m_RpcId)*B_RPC_LTN/2.0;

                else

                        z = -B_BOX_LT/2.0 + B_BOX_DZ[m_UpDown] + (1+2*(3-m_RpcId))*B_RPC_LTN/2.0;


        } // end not top segment

        else // top segment

        {

        //---------- set x--------

                if( m_RpcId > 1 )  // NO.3, 4, 5

                        x = 0.;

                else  // NO.1 and NO.2

                        x = (1-2*m_RpcId) * ( (B_BOX_WT[m_Layer] + B_BOX_SLOT_WT)/4.0 + (B_BOX_DZ[m_UpDown] - B_BOX_DT[m_UpDown])/2.0 );


        //---------- set y--------

                y = (B_AS_RMIN[m_Layer] - AS_GAP / 2.0) + (1-2*m_UpDown)*(STR_TH + RPC_TH)/2.0;


        //---------- set z--------

                if( m_RpcId < 2 ) // rpc NO.1 and NO.2

                    z = B_BOX_LT/2.0 - B_BOX_DZ[m_UpDown] - B_TOPRPC_LTS[ ((m_Layer==0)?1:(m_Layer%2)) ];

                else if( m_UpDown == SL_UP && m_RpcId == 4 ) // up NO.5

                        z = -B_RPC_LTN - B_TOPRPC_LTS[ ((m_Layer==0)?1:(m_Layer%2)) ];

                else if( m_UpDown == SL_DOWN && m_RpcId == 2 ) // down NO.3

                        z = B_RPC_LTN - B_TOPRPC_LTS[ ((m_Layer==0)?1:(m_Layer%2)) ];

                else if( m_UpDown == SL_UP ) // up NO.3 and NO.4

                        z = B_BOX_LT/2.0 - B_BOX_DZ[m_UpDown] - B_TOPRPC_LTS[ ((m_Layer==0)?1:(m_Layer%2)) ] + (3-2*m_RpcId)*B_RPC_LTN/2.0;

                else    // down NO.4 and NO.5

                        z = -B_BOX_LT/2.0 - B_BOX_DZ[m_UpDown] + (1+2*(4-m_RpcId))*B_RPC_LTN/2.0;


        } // end top segment


        m_LocOrgInBes[0] = x;

        m_LocOrgInBes[1] = y;

        m_LocOrgInBes[2] = z;


        // limit cut

        for( int i=0; i<2; i++ ) {

                if( fabs(m_LocOrgInBes[i]) < ERR_LIMIT ) m_LocOrgInBes[i] = 0.0;

        }


    return 0;

}


int MucGas::SetEndcapRpcInBes()

{

    if( m_Part == BRID ) return 0;


    double x, y, z;

    x = y = z = 0.;


    //------------ set x and y ---------------

    if( m_UpDown == SL_UP )

    {

        if( m_RpcId == 0 )

        {

            x = ( VALUE*m_Rc + E_GP_DX + E_STRPLN_DA + RPC_SL_OFFSET ) / 2.0;

            y = m_Rc;

        }

        else if( m_RpcId == 1 )

        {

            x = m_Rc * cos( MUC_PI/4.0 );

            y = m_Rc * sin( MUC_PI/4.0 );

        }

        else

        {

            x = m_Rc;

            y = ( VALUE*m_Rc + E_GP_DY + E_STRPLN_DA + RPC_SL_OFFSET ) / 2.0;

        }

    }

    else

    {

        switch( m_RpcId )

        {

            case 0:

                x = ( VALUE*m_Rc + E_GP_DX + E_STRPLN_DA )/2.0 + RPC_DEATH_EDGE/2.0;

                y = m_Rc;

                break;

            case 1:

                x = VALUE*m_Rc + sin(MUC_PI/4.0)*m_Wd/4.0;

                x += RPC_DEATH_EDGE * ( 3 - 2*sqrt(2.0) )/4.0;


                y = m_Rc - cos(MUC_PI/4.0)*m_Wd/4.0;

                y += RPC_DEATH_EDGE * ( 1 + 4.0/sqrt(2.0) )/4.0;


                break;

            case 2:

                x = m_Rc * cos( MUC_PI/4.0 );

                y = m_Rc * sin( MUC_PI/4.0 );

                break;

            case 3:

                x = m_Rc - cos(MUC_PI/4.0)*m_Wd/4.0;

                x += RPC_DEATH_EDGE * ( 1 + 4.0/sqrt(2.0) )/4.0;


                y = VALUE*m_Rc + sin(MUC_PI/4.0)*m_Wd/4.0;

                y += RPC_DEATH_EDGE * ( 3 - 2*sqrt(2.0) )/4.0;


                break;

            case 4:

                x = m_Rc;

                y = ( VALUE*m_Rc + E_GP_DY + E_STRPLN_DA )/2.0 + RPC_DEATH_EDGE/2.0;

        }


    }


        // sign different by segment

        if     ( m_Segment == 0 ) {     ;           }

        else if( m_Segment == 1 ) {     x = -x;     }

        else if( m_Segment == 2 ) { x = -x; y = -y; }

        else              { y = -y;     }


    //------------ set z ---------------------

        for( int i=0; i<m_Layer+1; i++ ) z += E_AS_TH[i];

        z += m_Layer * AS_GAP;

        z += ( (E_AS_ZMAX - E_AS_TOTAL_TH) + AS_GAP/2.0 );

        z += (1-2*m_UpDown) * ( STR_TH + RPC_TH ) / 2.0;

    z *= cos( m_Part*MUC_PI/2.0 );


        m_LocOrgInBes[0] = x;

        m_LocOrgInBes[1] = y;

        m_LocOrgInBes[2] = z;


        // limit cut

        for( int i=0; i<2; i++ ) {

                if( fabs(m_LocOrgInBes[i]) < ERR_LIMIT ) m_LocOrgInBes[i] = 0.;

        }


    return 0;

}


// Set local origin(RPC) in BES CS


void MucGas::SetLocOrgInBes()

{

        if( m_Part == BRID )

        SetBarrelRpcInBes();

        else

        SetEndcapRpcInBes();

}


// Set gas origin in RPC CS, all is 0


void MucGas::SetObjOrgInLoc()

{

    for( int i=0; i<3; i++ )  m_ObjOrgInLoc[i] = 0.;

}


void MucGas::SetObjOrgInBes()

{

    MucEntity::TransLocToBes( m_ObjOrgInBes, m_ObjOrgInLoc, m_LocOrgInBes, m_Phi );


        // limit cut

        for( int i=0; i<3; i++ ) {

            if( fabs(m_ObjOrgInBes[i]) < ERR_LIMIT ) m_ObjOrgInBes[i] = 0.0;

        }

}


/*

void MucGas::SetAlignment( double dx, double dy, double dz )

{


    m_ObjOrgInLoc[0] += dx;

        m_ObjOrgInLoc[1] += dy;

        m_ObjOrgInLoc[2] += d;

}

*/


// END

sin
double sin(const BesAngle a)
Definition BesAngle.h:210

cos
double cos(const BesAngle a)
Definition BesAngle.h:213

x
Double_t x[10]
Definition DataBase/tau_mode.c:57

MucGas.h

MucGeoConst.h

BRID
const int BRID
Definition MucMappingAlg/MucMappingAlg-00-00-02/MucMappingAlg/MucGeoConst.h:18

MucEntity
Definition MucEntity.h:19

MucEntity::m_RpcId
int m_RpcId
Definition MucEntity.h:92

MucEntity::m_W
double m_W
Definition MucEntity.h:102

MucEntity::operator=
MucEntity & operator=(const MucEntity &other)
Definition MucEntity.cxx:92

MucEntity::m_Thin
double m_Thin
Definition MucEntity.h:101

MucEntity::m_Rin
double m_Rin
Definition MucEntity.h:98

MucEntity::m_H
double m_H
Definition MucEntity.h:103

MucEntity::m_Layer
int m_Layer
Definition MucEntity.h:90

MucEntity::m_ObjOrgInLoc
double m_ObjOrgInLoc[3]
Definition MucEntity.h:119

MucEntity::m_Rout
double m_Rout
Definition MucEntity.h:99

MucEntity::m_Wd
double m_Wd
Definition MucEntity.h:106

MucEntity::m_Segment
int m_Segment
Definition MucEntity.h:89

MucEntity::m_Theta
double m_Theta
Definition MucEntity.h:95

MucEntity::m_Part
int m_Part
Definition MucEntity.h:88

MucEntity::m_LocOrgInBes
double m_LocOrgInBes[3]
Definition MucEntity.h:109

MucEntity::m_Rc
double m_Rc
Definition MucEntity.h:100

MucEntity::m_ObjOrgInBes
double m_ObjOrgInBes[3]
Definition MucEntity.h:118

MucEntity::m_UpDown
int m_UpDown
Definition MucEntity.h:91

MucEntity::TransLocToBes
void TransLocToBes(double LocCoord[], double BesCoord[], double LocOrgInBes[], double Rot_z)
Definition MucEntity.cxx:232

MucEntity::m_ID
int m_ID
Definition MucEntity.h:93

MucEntity::m_Wu
double m_Wu
Definition MucEntity.h:105

MucEntity::m_L
double m_L
Definition MucEntity.h:104

MucGas
Definition MucGas.h:19

MucGas::SetTheta
virtual void SetTheta()
Definition MucGas.cxx:87

MucGas::SetWd
virtual void SetWd()
Definition MucGas.cxx:327

MucGas::SetRc
virtual void SetRc()
Definition MucGas.cxx:125

MucGas::SetWu
virtual void SetWu()
Definition MucGas.cxx:272

MucGas::~MucGas
~MucGas()
Definition MucGas.cxx:43

MucGas::MucGas
MucGas(int part, int segment, int layer, int upDown, int rpcId, int id)
Definition MucGas.cxx:17

MucGas::SetH
virtual void SetH()
Definition MucGas.cxx:209

MucGas::GetPhi
double GetPhi()
Definition MucGas.cxx:74

MucGas::SetW
virtual void SetW()
Definition MucGas.cxx:136

MucGas::SetThin
virtual void SetThin()
Definition MucGas.cxx:131

MucGas::SetRout
virtual void SetRout()
Definition MucGas.cxx:117

MucGas::Init
virtual void Init()
Definition MucGas.cxx:49

MucGas::operator=
MucGas & operator=(const MucGas &other)
Definition MucGas.cxx:30

MucGas::SetEndcapRpcInBes
int SetEndcapRpcInBes()
Definition MucGas.cxx:448

MucGas::SetL
virtual void SetL()
Definition MucGas.cxx:225

MucGas::SetRin
virtual void SetRin()
Definition MucGas.cxx:108

MucGas::SetBarrelRpcInBes
int SetBarrelRpcInBes()
Definition MucGas.cxx:382

MucGas::SetObjOrgInLoc
virtual void SetObjOrgInLoc()
Definition MucGas.cxx:545

MucGas::SetPhi
void SetPhi()
Definition MucGas.cxx:79

MucGas::SetObjOrgInBes
virtual void SetObjOrgInBes()
Definition MucGas.cxx:550

MucGas::SetLocOrgInBes
virtual void SetLocOrgInBes()
Definition MucGas.cxx:536

std
Definition RootEventData_rootcint.cxx:16