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DeviationsFromFileSensor2D Class Reference

#include <DeviationsFromFileSensor2D.h>

Public Member Functions

 DeviationsFromFileSensor2D ()
 
std::pair< ALIdouble, ALIdoublegetDevis (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
 

Detailed Description

Definition at line 23 of file DeviationsFromFileSensor2D.h.

Constructor & Destructor Documentation

◆ DeviationsFromFileSensor2D()

DeviationsFromFileSensor2D::DeviationsFromFileSensor2D ( )
inline

Definition at line 26 of file DeviationsFromFileSensor2D.h.

References theOffsetX, and theOffsetY.

◆ ~DeviationsFromFileSensor2D()

DeviationsFromFileSensor2D::~DeviationsFromFileSensor2D ( )
inline

Definition at line 30 of file DeviationsFromFileSensor2D.h.

30 {};

Member Function Documentation

◆ apply()

static const ALIbool DeviationsFromFileSensor2D::apply ( )
inlinestatic

◆ getDevis()

std::pair< ALIdouble, ALIdouble > DeviationsFromFileSensor2D::getDevis ( ALIdouble  intersX,
ALIdouble  intersY 
)

Definition at line 146 of file DeviationsFromFileSensor2D.cc.

References EcnaPython_AdcPeg12_S1_10_R170298_1_0_150_Dee0::cerr, gather_cfg::cout, MillePedeFileConverter_cfg::e, beamvalidation::exit(), cuy::ii, DeviationSensor2D::posX(), RecoTauValidation_cfi::posX, RecoTauValidation_cfi::posY, funct::pow(), mathSSE::sqrt(), theDeviations, theNPoints, theOffsetX, theOffsetY, theScanSenseX, theScanSenseY, and verbose.

146  {
147  //intersX += 10000;
148  //intersY += 10000;
149  if (verbose >= 4)
150  std::cout << " entering getdevis " << intersX << " " << intersY << " " << this << std::endl;
151  vvd::iterator vvdite;
152  vd::iterator vdite;
153 
154  // assume scan is in Y first, else revers intersection coordinates
155  /* if( !firstScanDirY ) {
156  ALIdouble tt = intersY;
157  intersY = intersX;
158  intersX = tt;
159  }
160 */
161 
162  //---------- look which point in the deviation matrices correspond to intersX,Y
163  //----- Look for each column, between which rows intersY is
164  //assume first dir is Y
165  auto yrows = std::make_unique<unsigned int[]>(theNPoints);
166 
167  unsigned int ii = 0;
168  ALIbool insideMatrix = false;
169  for (vvdite = theDeviations.begin(); vvdite != (theDeviations.end() - 1); ++vvdite) {
170  for (vdite = (*vvdite).begin(); vdite != ((*vvdite).end() - 1); ++vdite) {
171  if (verbose >= 5)
172  std::cout << " check posy " << (*(vdite))->posY() << " " << (*(vdite + 1))->posY() << " " << (*(vdite))
173  << std::endl;
174  // if posy is between this point and previous one
175 
176  //- std::cout << "intersy" << intersY << " " << (*(vdite))->posY() << std::endl;
177 
178  if ((intersY - (*(vdite))->posY()) * theScanSenseY > 0 &&
179  (intersY - (*(vdite + 1))->posY()) * theScanSenseY < 0) {
180  //-std::cout << " ii " << ii << std::endl;
181  yrows[ii] = vdite - (*vvdite).begin();
182  if (verbose >= 3)
183  std::cout << intersY << " DeviationsFromFileSensor2D yrows " << ii << " " << yrows[ii] << " : "
184  << (*(vdite))->posY() << std::endl;
185  insideMatrix = true;
186  break;
187  }
188  }
189  ii++;
190  }
191  if (insideMatrix == 0) {
192  std::cerr << "!!EXITING intersection in Y outside matrix of deviations from file " << intersY << std::endl;
193  exit(1);
194  }
195  insideMatrix = false;
196 
197  vd thePoints;
198  thePoints.clear();
199  //----- For each row in 'yrows' look between which columns intersX is
200  unsigned int rn;
201  DeviationSensor2D *dev1, *dev2;
202  for (ii = 0; ii < theNPoints - 1; ii++) {
203  rn = yrows[ii];
204  //- std::cout << ii << " rn " << rn << std::endl;
205  dev1 = (*(theDeviations.begin() + ii))[rn]; // column ii, row yrows[ii]
206  rn = yrows[ii + 1];
207  dev2 = (*(theDeviations.begin() + ii + 1))[rn]; // column ii+1, row yrows[ii+1]
208  if ((intersX - dev1->posX()) * theScanSenseX > 0 && (intersX - dev2->posX()) * theScanSenseX < 0) {
209  thePoints.push_back(dev1);
210  thePoints.push_back(dev2);
211  insideMatrix = true;
212  if (verbose >= 3)
213  std::cout << " column up " << ii << " " << dev1->posX() << " " << dev2->posX() << " : " << intersX << std::endl;
214  }
215 
216  rn = yrows[ii] + 1;
217  if (rn == theNPoints)
218  rn = theNPoints - 1;
219  dev1 = (*(theDeviations.begin() + ii))[rn]; // column ii, row yrows[ii]+1
220  rn = yrows[ii + 1] + 1;
221  if (rn == theNPoints)
222  rn = theNPoints - 1;
223  dev2 = (*(theDeviations.begin() + ii + 1))[rn]; // column ii+1, row yrows[ii+1]+1
224  if ((intersX - dev1->posX()) * theScanSenseX > 0 && (intersX - dev2->posX()) * theScanSenseX < 0) {
225  thePoints.push_back(dev1);
226  thePoints.push_back(dev2);
227  if (verbose >= 3)
228  std::cout << " column down " << ii << " " << dev1->posX() << " " << dev2->posX() << " : " << intersX
229  << std::endl;
230  }
231 
232  if (thePoints.size() == 4)
233  break;
234  }
235 
236  if (insideMatrix == 0) {
237  std::cerr << "!!EXITING intersection in X outside matrix of deviations from file " << intersX << std::endl;
238  exit(1);
239  }
240 
241  //----------- If loop finished and not 4 points, point is outside scan bounds
242 
243  //----- calculate deviation in x and y interpolating between four points
244  ALIdouble dist, disttot = 0, deviX = 0, deviY = 0;
245 
246  if (verbose >= 4)
247  std::cout << " thepoints size " << thePoints.size() << std::endl;
248 
249  for (ii = 0; ii < 4; ii++) {
250  dist = sqrt(pow(thePoints[ii]->posX() - intersX, 2) + pow(thePoints[ii]->posY() - intersY, 2));
251  disttot += 1. / dist;
252  deviX += thePoints[ii]->devX() / dist;
253  deviY += thePoints[ii]->devY() / dist;
254  if (verbose >= 4) {
255  //t std::cout << ii << " point " << *thePoints[ii] << std::endl;
256  std::cout << ii << " distances: " << dist << " " << deviX << " " << deviY << " devX " << thePoints[ii]->devX()
257  << " devY " << thePoints[ii]->devY() << std::endl;
258  }
259  }
260  deviX /= disttot;
261  deviY /= disttot;
262 
263  // add offset
264  deviX += theOffsetX;
265  deviY += theOffsetY;
266  if (verbose >= 4) {
267  std::cout << " devisX/Y: " << deviX << " " << deviY << " intersX/Y " << intersX << " " << intersY << std::endl;
268  }
269 
270  //change sign!!!!!?!?!?!?!?!
271  deviX *= -1;
272  deviY *= -1;
273  return std::pair<ALIdouble, ALIdouble>(deviX * 1.e-6, deviY * 1e-6); // matrix is in microrad
274 }
long double ALIdouble
Definition: CocoaGlobals.h:11
bool ALIbool
Definition: CocoaGlobals.h:19
T sqrt(T t)
Definition: SSEVec.h:19
std::vector< DeviationSensor2D * > vd
ii
Definition: cuy.py:589
const ALIdouble & posX()
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29
def exit(msg="")

◆ readFile()

void DeviationsFromFileSensor2D::readFile ( ALIFileIn ifdevi)

Definition at line 20 of file DeviationsFromFileSensor2D.cc.

References funct::abs(), EcnaPython_AdcPeg12_S1_10_R170298_1_0_150_Dee0::cerr, gather_cfg::cout, ALIUtils::debug, ALIUtils::dumpVS(), ALIFileIn::eof(), beamvalidation::exit(), DeviationSensor2D::fillData(), firstScanDir, ALIFileIn::getWordsInLine(), ALIFileIn::name(), DeviationSensor2D::posX(), DeviationSensor2D::posY(), mathSSE::sqrt(), theDeviations, theNPoints, theScanSenseX, theScanSenseY, verbose, LaserClient_cfi::wl, xdir, and ydir.

20  {
22  // verbose = 4;
23  if (verbose >= 3)
24  std::cout << "DeviationsFromFileSensor2D::readFile " << this << ifdevi.name() << std::endl;
25 
26  theScanSenseX = 0;
27  theScanSenseY = 0;
28 
29  ALIuint nl = 1;
30 
31  ALIdouble oldposX = 0, oldposY = 0;
32  vd vcol;
33  std::vector<ALIstring> wl;
34  /* //------ first line with dimension factors //now with global option
35  ifdevi.getWordsInLine( wl );
36  if( wl[0] != "DIMFACTOR:" || wl.size() != 3) {
37  std::cerr << "Error reading sensor2D deviation file " << ifdevi.name() << std::endl
38  << " first line has to be DIMFACTOR: 'posDimFactor' 'angDimFactor' " << std::endl;
39  ALIUtils::dumpVS( wl, " ");
40  exit(1);
41  }
42  ALIdouble posDimFactor = atof(wl[1].c_str());
43  ALIdouble angDimFactor = atof(wl[2].c_str());
44  */
45 
46  for (;;) {
47  ifdevi.getWordsInLine(wl);
48  if (ifdevi.eof())
49  break;
50 
52  dev->fillData(wl);
53 
54  if (verbose >= 5) {
55  ALIUtils::dumpVS(wl, "deviation sensor2D", std::cout);
56  }
57 
58  //--- line 2 of data
59  if (nl == 2) {
60  //--------- get if scan is first in Y or X
62  if (verbose >= 3)
63  std::cout << "firstScanDir " << firstScanDir << " " << dev->posX() << " " << oldposX << " " << dev->posY()
64  << " " << oldposY << std::endl;
65  if (std::abs(dev->posX() - oldposX) > std::abs(dev->posY() - oldposY)) {
66  std::cerr << "!!!EXITING first scan direction has to be Y for the moment " << ifdevi.name() << std::endl;
68  exit(1);
69  }
70  //-------- get sense of first scan direction
71  if (firstScanDir == ydir) {
72  if (dev->posY() > oldposY) {
73  theScanSenseY = +1;
74  } else {
75  theScanSenseY = -1;
76  }
77  if (verbose >= 3)
78  std::cout << " theScanSenseY " << theScanSenseY << std::endl;
79  } else {
80  if (dev->posX() > oldposX) {
81  theScanSenseX = +1;
82  } else {
83  theScanSenseX = -1;
84  }
85  if (verbose >= 3)
86  std::cout << " theScanSenseX " << theScanSenseX << std::endl;
87  }
88  }
89 
90  //- std::cout << "firstScanDir " << firstScanDir << " " << dev->posX() << " " << oldposX << " " << dev->posY() << " " << oldposY << std::endl;
91 
92  //------- check if change of row: clear current std::vector of column values
93  if ((firstScanDir == ydir && (dev->posY() - oldposY) * theScanSenseY < 0) ||
94  (firstScanDir == xdir && (dev->posX() - oldposX) * theScanSenseX < 0)) {
95  theDeviations.push_back(vcol);
96  vcol.clear();
97 
98  //- std::cout << " theDevi size " << theDeviations.size() << " " << ifdevi.name() << std::endl;
99  //-------- get sense of second scan direction
100  if (theScanSenseY == 0) {
101  if (dev->posY() > oldposY) {
102  theScanSenseY = +1;
103  } else {
104  theScanSenseY = -1;
105  }
106  }
107  if (theScanSenseX == 0) {
108  if (dev->posX() > oldposX) {
109  theScanSenseX = +1;
110  } else {
111  theScanSenseX = -1;
112  }
113  }
114  if (verbose >= 3)
115  std::cout << " theScanSenseX " << theScanSenseX << " theScanSenseY " << theScanSenseY << std::endl;
116  }
117 
118  oldposX = dev->posX();
119  oldposY = dev->posY();
120 
121  //--- fill deviation std::vectors
122  vcol.push_back(dev);
123  nl++;
124  }
125  theDeviations.push_back(vcol);
126 
127  //----- Calculate std::vector size
128  ALIdouble dvsiz = (sqrt(ALIdouble(nl - 1)));
129  //----- Check that it is a square of points (<=> vsiz is integer)
130  ALIuint vsiz = ALIuint(dvsiz);
131  if (vsiz != dvsiz) {
132  if (ALIUtils::debug >= 0)
133  std::cerr << "!!WARNING: error reading deviation file: number of X points <> number of Y points : Number of "
134  "points in X "
135  << dvsiz << " nl " << nl - 1 << " file " << ifdevi.name() << std::endl;
136  // exit(1);
137  }
138  theNPoints = vsiz;
139 
140  if (verbose >= 4) {
141  std::cout << " Filling deviation from file: " << ifdevi.name() << " theNPoints " << theNPoints << std::endl;
142  }
143 }
long double ALIdouble
Definition: CocoaGlobals.h:11
ALIbool eof()
Definition: ALIFileIn.cc:201
const ALIstring & name()
Definition: ALIFileIn.h:43
static ALIint debug
Definition: ALIUtils.h:34
T sqrt(T t)
Definition: SSEVec.h:19
const ALIdouble & posY()
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
std::vector< DeviationSensor2D * > vd
ALIint getWordsInLine(std::vector< ALIstring > &wl)
Definition: ALIFileIn.cc:74
const ALIdouble & posX()
void fillData(const std::vector< ALIstring > &wl)
static void dumpVS(const std::vector< ALIstring > &wl, const std::string &msg, std::ostream &outs=std::cout)
dumps a vector of strings with a message to outs
Definition: ALIUtils.cc:465
unsigned int ALIuint
Definition: CocoaGlobals.h:17
def exit(msg="")

◆ setApply()

static void DeviationsFromFileSensor2D::setApply ( ALIbool  val)
inlinestatic

◆ setOffset()

void DeviationsFromFileSensor2D::setOffset ( ALIdouble  offX,
ALIdouble  offY 
)
inline

Definition at line 39 of file DeviationsFromFileSensor2D.h.

References theOffsetX, and theOffsetY.

39  {
40  theOffsetX = offX;
41  theOffsetY = offY;
42  }

Member Data Documentation

◆ firstScanDir

bool DeviationsFromFileSensor2D::firstScanDir
private

Definition at line 51 of file DeviationsFromFileSensor2D.h.

Referenced by readFile().

◆ theApply

ALIbool DeviationsFromFileSensor2D::theApply = true
staticprivate

Definition at line 56 of file DeviationsFromFileSensor2D.h.

Referenced by apply(), and setApply().

◆ theDeviations

vvd DeviationsFromFileSensor2D::theDeviations
private

Definition at line 55 of file DeviationsFromFileSensor2D.h.

Referenced by getDevis(), and readFile().

◆ theNPoints

ALIuint DeviationsFromFileSensor2D::theNPoints
private

Definition at line 54 of file DeviationsFromFileSensor2D.h.

Referenced by getDevis(), and readFile().

◆ theOffsetX

ALIdouble DeviationsFromFileSensor2D::theOffsetX
private

Definition at line 60 of file DeviationsFromFileSensor2D.h.

Referenced by DeviationsFromFileSensor2D(), getDevis(), and setOffset().

◆ theOffsetY

ALIdouble DeviationsFromFileSensor2D::theOffsetY
private

Definition at line 60 of file DeviationsFromFileSensor2D.h.

Referenced by DeviationsFromFileSensor2D(), getDevis(), and setOffset().

◆ theScanSenseX

int DeviationsFromFileSensor2D::theScanSenseX
private

Definition at line 52 of file DeviationsFromFileSensor2D.h.

Referenced by getDevis(), and readFile().

◆ theScanSenseY

int DeviationsFromFileSensor2D::theScanSenseY
private

Definition at line 52 of file DeviationsFromFileSensor2D.h.

Referenced by getDevis(), and readFile().

◆ verbose

ALIint DeviationsFromFileSensor2D::verbose
private