#include <DeviationsFromFileSensor2D.h>
Public Member Functions | |
DeviationsFromFileSensor2D () | |
std::pair< ALIdouble, ALIdouble > | getDevis (ALIdouble intersX, ALIdouble intersY) |
void | readFile (ALIFileIn &ifdevi) |
void | setOffset (ALIdouble offX, ALIdouble offY) |
~DeviationsFromFileSensor2D () | |
Static Public Member Functions | |
static const ALIbool | apply () |
static void | setApply (ALIbool val) |
Private Attributes | |
bool | firstScanDir |
vvd | theDeviations |
ALIuint | theNPoints |
ALIdouble | theOffsetX |
ALIdouble | theOffsetY |
int | theScanSenseX |
int | theScanSenseY |
ALIint | verbose |
Static Private Attributes | |
static ALIbool | theApply = true |
Definition at line 24 of file DeviationsFromFileSensor2D.h.
DeviationsFromFileSensor2D::DeviationsFromFileSensor2D | ( | ) | [inline] |
Definition at line 29 of file DeviationsFromFileSensor2D.h.
References theOffsetX, and theOffsetY.
{ theOffsetX = 0.; theOffsetY = 0.; };
DeviationsFromFileSensor2D::~DeviationsFromFileSensor2D | ( | ) | [inline] |
Definition at line 33 of file DeviationsFromFileSensor2D.h.
{ };
static const ALIbool DeviationsFromFileSensor2D::apply | ( | ) | [inline, static] |
Definition at line 48 of file DeviationsFromFileSensor2D.h.
References theApply.
Referenced by OptOSensor2D::detailedTraversesLightRay(), and OptOSensor2D::fastTraversesLightRay().
{ return theApply; }
std::pair< ALIdouble, ALIdouble > DeviationsFromFileSensor2D::getDevis | ( | ALIdouble | intersX, |
ALIdouble | intersY | ||
) |
Definition at line 138 of file DeviationsFromFileSensor2D.cc.
References dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, alignCSCRings::e, cmsRelvalreport::exit, cuy::ii, DeviationSensor2D::posX(), funct::pow(), mathSSE::sqrt(), theDeviations, theNPoints, theOffsetX, theOffsetY, theScanSenseX, and theScanSenseY.
{ //intersX += 10000; //intersY += 10000; if(verbose >= 4) std::cout << " entering getdevis " << intersX << " " <<intersY << " " << this << std::endl; vvd::iterator vvdite; vd::iterator vdite; // assume scan is in Y first, else revers intersection coordinates /* if( !firstScanDirY ) { ALIdouble tt = intersY; intersY = intersX; intersX = tt; } */ //---------- look which point in the deviation matrices correspond to intersX,Y //----- Look for each column, between which rows intersY is //assume first dir is Y unsigned int* yrows = new unsigned int[ theNPoints ]; unsigned int ii = 0; ALIbool insideMatrix = 0; for( vvdite = theDeviations.begin(); vvdite != (theDeviations.end()-1); vvdite++ ){ for( vdite = (*vvdite).begin(); vdite != ((*vvdite).end()-1); vdite++ ){ if( verbose >= 5 ) std::cout << " check posy " << (*(vdite))->posY() << " " << (*(vdite+1))->posY() << " " << (*(vdite)) << std::endl; // if posy is between this point and previous one //- std::cout << "intersy" << intersY << " " << (*(vdite))->posY() << std::endl; if( (intersY - (*(vdite))->posY() )*theScanSenseY > 0 && (intersY - (*(vdite+1))->posY() )*theScanSenseY < 0 ) { //-std::cout << " ii " << ii << std::endl; yrows[ii] = vdite - (*vvdite).begin(); if( verbose >= 3 ) std::cout << intersY << " DeviationsFromFileSensor2D yrows " << ii << " " << yrows[ii] << " : " << (*(vdite))->posY() << std::endl; insideMatrix = 1; break; } } ii++; } if(insideMatrix == 0) { std::cerr << "!!EXITING intersection in Y outside matrix of deviations from file " << intersY << std::endl; exit(1); } insideMatrix = 0; vd thePoints; thePoints.clear(); //----- For each row in 'yrows' look between which columns intersX is unsigned int rn; DeviationSensor2D *dev1,*dev2; for( ii = 0; ii < theNPoints-1; ii++) { rn = yrows[ii]; //- std::cout << ii << " rn " << rn << std::endl; dev1 = (*(theDeviations.begin()+ii))[ rn ]; // column ii, row yrows[ii] rn = yrows[ii+1]; dev2 = (*(theDeviations.begin()+ii+1))[ rn ]; // column ii+1, row yrows[ii+1] if( (intersX - dev1->posX() )*theScanSenseX > 0 && (intersX - dev2->posX() )*theScanSenseX < 0) { thePoints.push_back( dev1 ); thePoints.push_back( dev2 ); insideMatrix = 1; if( verbose >= 3 ) std::cout << " column up " << ii << " " << dev1->posX() << " " << dev2->posX() << " : " << intersX << std::endl; } rn = yrows[ii] + 1; if(rn == theNPoints) rn = theNPoints-1; dev1 = (*(theDeviations.begin()+ii))[ rn ]; // column ii, row yrows[ii]+1 rn = yrows[ii+1] + 1; if(rn == theNPoints) rn = theNPoints-1; dev2 = (*(theDeviations.begin()+ii+1))[ rn ]; // column ii+1, row yrows[ii+1]+1 if( (intersX - dev1->posX() )*theScanSenseX > 0 && (intersX - dev2->posX() )*theScanSenseX < 0) { thePoints.push_back( dev1 ); thePoints.push_back( dev2 ); if( verbose >= 3 ) std::cout << " column down " << ii << " " << dev1->posX() << " " << dev2->posX() << " : " << intersX << std::endl; } if( thePoints.size() == 4 ) break; } if(insideMatrix == 0) { std::cerr << "!!EXITING intersection in X outside matrix of deviations from file " << intersX << std::endl; exit(1); } //----------- If loop finished and not 4 points, point is outside scan bounds //----- calculate deviation in x and y interpolating between four points ALIdouble dist, disttot=0, deviX=0, deviY=0; if( verbose >= 4) std::cout << " thepoints size " << thePoints.size() << std::endl; for( ii = 0; ii < 4; ii++) { dist = sqrt( pow(thePoints[ii]->posX() - intersX, 2 ) + pow(thePoints[ii]->posY() - intersY, 2 ) ); disttot += 1./dist; deviX += thePoints[ii]->devX()/dist; deviY += thePoints[ii]->devY()/dist; if( verbose >= 4 ) { //t std::cout << ii << " point " << *thePoints[ii] << std::endl; std::cout << ii << " distances: " << dist << " " << deviX << " " << deviY << " devX " << thePoints[ii]->devX() << " devY " << thePoints[ii]->devY() << std::endl; } } deviX /= disttot; deviY /= disttot; // add offset deviX += theOffsetX; deviY += theOffsetY; if( verbose >= 4 ) { std::cout << " devisX/Y: " << deviX << " " << deviY << " intersX/Y " << intersX << " " << intersY << std::endl; } //change sign!!!!!?!?!?!?!?! deviX *= -1; deviY *= -1; return std::pair< ALIdouble, ALIdouble>( deviX*1.e-6, deviY*1e-6 ); // matrix is in microrad }
void DeviationsFromFileSensor2D::readFile | ( | ALIFileIn & | ifdevi | ) |
Definition at line 19 of file DeviationsFromFileSensor2D.cc.
References dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, debug, ALIUtils::debug, ALIUtils::dumpVS(), ALIFileIn::eof(), cmsRelvalreport::exit, DeviationSensor2D::fillData(), firstScanDir, ALIFileIn::getWordsInLine(), ALIFileIn::name(), DeviationSensor2D::posX(), DeviationSensor2D::posY(), mathSSE::sqrt(), theDeviations, theNPoints, theScanSenseX, theScanSenseY, xdir, and ydir.
{ verbose = ALIUtils::debug; // verbose = 4; if( verbose >= 3) std::cout << "DeviationsFromFileSensor2D::readFile " << this << ifdevi.name() << std::endl; theScanSenseX = 0; theScanSenseY = 0; ALIuint nl = 1; ALIdouble oldposX=0, oldposY=0; vd vcol; std::vector<ALIstring> wl; /* //------ first line with dimension factors //now with global option ifdevi.getWordsInLine( wl ); if( wl[0] != "DIMFACTOR:" || wl.size() != 3) { std::cerr << "Error reading sensor2D deviation file " << ifdevi.name() << std::endl << " first line has to be DIMFACTOR: 'posDimFactor' 'angDimFactor' " << std::endl; ALIUtils::dumpVS( wl, " "); exit(1); } ALIdouble posDimFactor = atof(wl[1].c_str()); ALIdouble angDimFactor = atof(wl[2].c_str()); */ for(;;) { ifdevi.getWordsInLine( wl ); if(ifdevi.eof() ) break; DeviationSensor2D* dev = new DeviationSensor2D(); dev->fillData( wl ); if(verbose >= 5) { ALIUtils::dumpVS( wl, "deviation sensor2D", std::cout ); } //--- line 2 of data if(nl == 2) { //--------- get if scan is first in Y or X firstScanDir = ydir; if(verbose >= 3) std::cout << "firstScanDir " << firstScanDir << " " << dev->posX() << " " << oldposX << " " << dev->posY() << " " << oldposY << std::endl; if( fabs( dev->posX() - oldposX ) > fabs( dev->posY() - oldposY ) ) { std::cerr << "!!!EXITING first scan direction has to be Y for the moment " << ifdevi.name() << std::endl; firstScanDir = xdir; exit(1); } //-------- get sense of first scan direction if(firstScanDir == ydir ){ if( dev->posY() > oldposY ) { theScanSenseY = +1; } else { theScanSenseY = -1; } if( verbose >= 3 ) std::cout << " theScanSenseY " << theScanSenseY << std::endl; }else { if( dev->posX() > oldposX ) { theScanSenseX = +1; } else { theScanSenseX = -1; } if( verbose >= 3 ) std::cout << " theScanSenseX " << theScanSenseX << std::endl; } } //- std::cout << "firstScanDir " << firstScanDir << " " << dev->posX() << " " << oldposX << " " << dev->posY() << " " << oldposY << std::endl; //------- check if change of row: clear current std::vector of column values if( ( firstScanDir == ydir && ( dev->posY() - oldposY)*theScanSenseY < 0 ) || ( firstScanDir == xdir && ( dev->posX() - oldposX)*theScanSenseX < 0 )) { theDeviations.push_back( vcol ); vcol.clear(); //- std::cout << " theDevi size " << theDeviations.size() << " " << ifdevi.name() << std::endl; //-------- get sense of second scan direction if( theScanSenseY == 0 ) { if( dev->posY() > oldposY ) { theScanSenseY = +1; } else { theScanSenseY = -1; } } if( theScanSenseX == 0 ) { if( dev->posX() > oldposX ) { theScanSenseX = +1; } else { theScanSenseX = -1; } } if( verbose >= 3 ) std::cout << " theScanSenseX " << theScanSenseX << " theScanSenseY " << theScanSenseY << std::endl; } oldposX = dev->posX(); oldposY = dev->posY(); //--- fill deviation std::vectors vcol.push_back( dev ); nl++; } theDeviations.push_back( vcol ); //----- Calculate std::vector size ALIdouble dvsiz = ( sqrt( ALIdouble(nl-1) ) ); //----- Check that it is a square of points (<=> vsiz is integer) ALIuint vsiz = ALIuint(dvsiz); if( vsiz != dvsiz ) { if( ALIUtils::debug >= 0) std::cerr << "!!WARNING: error reading deviation file: number of X points <> number of Y points : Number of points in X " << dvsiz << " nl " << nl-1 << " file " << ifdevi.name() << std::endl; // exit(1); } theNPoints = vsiz; if(verbose >= 4 ) { std::cout << " Filling deviation from file: " << ifdevi.name() << " theNPoints " << theNPoints << std::endl; } }
static void DeviationsFromFileSensor2D::setApply | ( | ALIbool | val | ) | [inline, static] |
Definition at line 53 of file DeviationsFromFileSensor2D.h.
References theApply.
Referenced by Fit::calculateSimulatedMeasurementsWithOriginalValues(), and OptOSensor2D::detailedTraversesLightRay().
{ theApply = val; }
Definition at line 42 of file DeviationsFromFileSensor2D.h.
References theOffsetX, and theOffsetY.
{ theOffsetX = offX; theOffsetY = offY; }
bool DeviationsFromFileSensor2D::firstScanDir [private] |
Definition at line 59 of file DeviationsFromFileSensor2D.h.
Referenced by readFile().
ALIbool DeviationsFromFileSensor2D::theApply = true [static, private] |
Definition at line 64 of file DeviationsFromFileSensor2D.h.
Referenced by apply(), and setApply().
vvd DeviationsFromFileSensor2D::theDeviations [private] |
Definition at line 63 of file DeviationsFromFileSensor2D.h.
Referenced by getDevis(), and readFile().
Definition at line 62 of file DeviationsFromFileSensor2D.h.
Referenced by getDevis(), and readFile().
Definition at line 68 of file DeviationsFromFileSensor2D.h.
Referenced by DeviationsFromFileSensor2D(), getDevis(), and setOffset().
Definition at line 68 of file DeviationsFromFileSensor2D.h.
Referenced by DeviationsFromFileSensor2D(), getDevis(), and setOffset().
int DeviationsFromFileSensor2D::theScanSenseX [private] |
Definition at line 60 of file DeviationsFromFileSensor2D.h.
Referenced by getDevis(), and readFile().
int DeviationsFromFileSensor2D::theScanSenseY [private] |
Definition at line 60 of file DeviationsFromFileSensor2D.h.
Referenced by getDevis(), and readFile().
ALIint DeviationsFromFileSensor2D::verbose [private] |
Definition at line 66 of file DeviationsFromFileSensor2D.h.