/*
$Log$
+Revision 1.14 2007/04/18 14:49:54 arcelli
+Some code cleanup, added more debug info
+
Revision 1.13 2007/04/17 16:38:36 arcelli
Include Methods to derive TOF AlignObjs from Survey Data
TGeoVolume* fm = new TGeoVolume("FM",fmbox);
fm->SetLineColor(2);//color
- TGeoTranslation* Atr = new TGeoTranslation("Atr",-fgkXFM, fgkYFM ,fgkZFM);
- TGeoTranslation* Btr = new TGeoTranslation("Btr", fgkXFM, fgkYFM, fgkZFM);
- TGeoTranslation* Ctr = new TGeoTranslation("Ctr", fgkXFM, fgkYFM,-fgkZFM);
- TGeoTranslation* Dtr = new TGeoTranslation("Dtr",-fgkXFM, fgkYFM,-fgkZFM);
+ TGeoTranslation* mAtr = new TGeoTranslation("mAtr",-fgkXFM, fgkYFM ,fgkZFM);
+ TGeoTranslation* mBtr = new TGeoTranslation("mBtr", fgkXFM, fgkYFM, fgkZFM);
+ TGeoTranslation* mCtr = new TGeoTranslation("mCtr", fgkXFM, fgkYFM,-fgkZFM);
+ TGeoTranslation* mDtr = new TGeoTranslation("mDtr",-fgkXFM, fgkYFM,-fgkZFM);
// position all this stuff in the global ALICE frame
box0[iSM]->SetLineColor(1); //black
top->AddNode(box0[iSM],1,smTrans); //place the extended SM volume
box0[iSM]->AddNode(box1,1); //place the inner SM volume
- box0[iSM]->AddNode(fm,1,Atr);
- box0[iSM]->AddNode(fm,2,Btr);
- box0[iSM]->AddNode(fm,3,Ctr);
- box0[iSM]->AddNode(fm,4,Dtr);
+ box0[iSM]->AddNode(fm,1,mAtr);
+ box0[iSM]->AddNode(fm,2,mBtr);
+ box0[iSM]->AddNode(fm,3,mCtr);
+ box0[iSM]->AddNode(fm,4,mDtr);
}
fTOFmgr->CloseGeometry();
{
// Now Apply the Displacements and store the misaligned FM positions...
- Double_t A[3]={-fgkXFM,fgkYFM, fgkZFM};
- Double_t B[3]={ fgkXFM,fgkYFM, fgkZFM};
- Double_t C[3]={ fgkXFM,fgkYFM,-fgkZFM};
- Double_t D[3]={-fgkXFM,fgkYFM,-fgkZFM};
+ Double_t lA[3]={-fgkXFM,fgkYFM, fgkZFM};
+ Double_t lB[3]={ fgkXFM,fgkYFM, fgkZFM};
+ Double_t lC[3]={ fgkXFM,fgkYFM,-fgkZFM};
+ Double_t lD[3]={-fgkXFM,fgkYFM,-fgkZFM};
for(Int_t iSM=0;iSM<18;iSM++){
// ************* get ideal global matrix *******************
TGeoMatrix* l3 = n3->GetMatrix();
Double_t gA[3], gB[3], gC[3], gD[3]; // ideal FM point coord., global RS
- g3.LocalToMaster(A,gA);
- g3.LocalToMaster(B,gB);
- g3.LocalToMaster(C,gC);
- g3.LocalToMaster(D,gD);
+ g3.LocalToMaster(lA,gA);
+ g3.LocalToMaster(lB,gB);
+ g3.LocalToMaster(lC,gC);
+ g3.LocalToMaster(lD,gD);
// We apply a delta transformation to the surveyed vol to represent
printf("\n\n************* The Misaligned Matrix in GRS **************\n");
ng3->Print();
Double_t ngA[3], ngB[3], ngC[3], ngD[3];// real FM point coord., global RS
- ng3->LocalToMaster(A,ngA);
- ng3->LocalToMaster(B,ngB);
- ng3->LocalToMaster(C,ngC);
- ng3->LocalToMaster(D,ngD);
+ ng3->LocalToMaster(lA,ngA);
+ ng3->LocalToMaster(lB,ngB);
+ ng3->LocalToMaster(lC,ngC);
+ ng3->LocalToMaster(lD,ngD);
for(Int_t iFM=0;iFM<3;iFM++){
fTOFSurveyFM[iSM][0][iFM]=ngA[iFM];