|
|
Go to the documentation of this file.
15 #define infinity 10000
30 theHcalHitMaker(myHcalHitMaker),
85 if (effective > 0.5 * emax) {
87 if (effective > emax) {
91 if (effective > 1000.)
97 LogInfo(
"FastCalorimetry") <<
" HDShower : " << std::endl
98 <<
" Energy " <<
e << std::endl
99 <<
" lossesOpt " <<
lossesOpt << std::endl
101 <<
" nTRsteps " <<
nTRsteps << std::endl
103 <<
" eSpotSize " <<
eSpotSize << std::endl
106 <<
" balanceEH " <<
balanceEH << std::endl
130 LogInfo(
"FastCalorimetry") <<
" HDShower : " << std::endl
131 <<
" edpar " << edpar <<
" aedep " << aedep << std::endl
132 <<
" alpEM1 " << alpEM1 << std::endl
133 <<
" alpEM2 " << alpEM2 << std::endl
134 <<
" betEM1 " << betEM1 << std::endl
135 <<
" betEM2 " << betEM2 << std::endl
136 <<
" alpHD1 " << alpHD1 << std::endl
137 <<
" alpHD2 " << alpHD2 << std::endl
138 <<
" betHD1 " << betHD1 << std::endl
139 <<
" betHD2 " << betHD2 << std::endl
140 <<
" part1 " << part1 << std::endl
141 <<
" part2 " << part2 << std::endl;
148 alpEM = alpEM1 + alpEM2 * aedep;
150 betEM = betEM1 - betEM2 * aedep;
151 alpHD = alpHD1 + alpHD2 * aedep;
153 betHD = betHD1 - betHD2 * aedep;
154 part = part1 - part2 * aedep;
159 LogInfo(
"FastCalorimetry") <<
" HDShower : " << std::endl
160 <<
" alpEM " <<
alpEM << std::endl
161 <<
" tgamEM " <<
tgamEM << std::endl
162 <<
" betEM " <<
betEM << std::endl
163 <<
" alpHD " <<
alpHD << std::endl
164 <<
" tgamHD " <<
tgamHD << std::endl
165 <<
" betHD " <<
betHD << std::endl
166 <<
" part " <<
part << std::endl;
179 LogInfo(
"FastCalorimetry") <<
" HDShower e " <<
e << std::endl
180 <<
" x0EM = " <<
x0EM << std::endl
181 <<
" x0HD = " <<
x0HD << std::endl
182 <<
" lamEM = " <<
lambdaEM << std::endl
183 <<
" lamHD = " <<
lambdaHD << std::endl;
232 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : e <emin -> depthStart = 0" << std::endl;
238 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : depthStart too big ... = " <<
depthStart << std::endl;
243 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : depthStart re-calculated = " <<
depthStart << std::endl;
246 if (onECAL &&
e < emid) {
250 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : small energy, "
251 <<
" depthStart reduced to = " <<
depthStart << std::endl;
257 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : depthHCAL too small ... = " <<
depthHCAL
258 <<
" depthStart -> forced to 0 !!!" << std::endl;
264 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : too small ECAL and HCAL depths - "
265 <<
" particle is lost !!! " << std::endl;
270 LogInfo(
"FastCalorimetry") <<
" FamosHDShower depths(lam) - " << std::endl
272 <<
" GAP = " <<
depthGAP << std::endl
274 <<
" starting point = " <<
depthStart << std::endl;
278 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : onECAL" << std::endl;
281 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : depthStart < depthECAL" << std::endl;
284 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : enough space to make ECAL step" << std::endl;
301 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : "
302 <<
" in ECAL sum1, sum2 " << sum1 <<
" " <<
sum2 << std::endl;
312 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : goto HCAL" << std::endl;
323 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : goto HCAL" << std::endl;
327 LogInfo(
"FastCalorimetry") <<
" FamosHDShower : forward" << std::endl;
332 for (
int i = 0;
i < nmoresteps;
i++) {
358 std::vector<double>
temp;
361 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::makeSteps - "
362 <<
" nsteps required : " << nsteps << std::endl;
365 for (
int i = 0;
i < nsteps;
i++) {
369 double y =
betHD * deplam;
372 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::makeSteps "
373 <<
" - step " <<
i <<
" depx0, x = " << depx0 <<
", " <<
x
374 <<
" deplam, y = " << deplam <<
", " <<
y << std::endl;
382 LogInfo(
"FastCalorimetry") <<
"*** FamosHDShower::makeSteps "
383 <<
" - negative step energy !!!" << std::endl;
393 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::makeSteps - nPoints estimate = " << nPest << std::endl;
395 if (nPest <= 1 &&
count != 0)
409 double oldECALenergy =
temp[0];
410 double oldHCALenergy = sumes - oldECALenergy;
411 double newECALenergy = 2. * sumes;
412 for (
int i = 0; newECALenergy > sumes &&
i <
infinity;
i++)
416 LogInfo(
"FastCalorimetry") <<
"*** FamosHDShower::makeSteps "
417 <<
" ECAL fraction : old/new - " << oldECALenergy / sumes <<
"/"
418 << newECALenergy / sumes << std::endl;
420 temp[0] = newECALenergy;
421 double newHCALenergy = sumes - newECALenergy;
422 double newHCALreweight = newHCALenergy / oldHCALenergy;
425 temp[
i] *= newHCALreweight;
448 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::makeSteps - "
449 <<
"ECAL energy = " <<
eStep[0] <<
" out of total = " <<
e << std::endl;
457 int numLongit =
eStep.size();
459 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - "
460 <<
" N_long.steps required : " << numLongit << std::endl;
465 std::vector<double> Fhist;
466 std::vector<double> rhist;
471 LogInfo(
"FastCalorimetry") <<
"indexFinder - i, Fhist[i] = " <<
j <<
" " << Fhist[
j] << std::endl;
475 for (
int i = 0;
i < numLongit;
i++) {
481 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - detector = " <<
detector[
i]
482 <<
" currentDepthL0 = " << currentDepthL0 << std::endl;
485 double rbinsize = maxTRsize /
nTRsteps;
488 if (espot > 2. || espot < 0.)
489 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - unphysical espot = " << espot << std::endl;
496 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - status of "
497 <<
" theHcalHitMaker->setDepth(currentDepthL0) is " << setHDdepth << std::endl;
515 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - status of Grid = " <<
status << std::endl;
523 espot *= 0.1 * (double)ntry /
double(
nspots[
i]);
543 std::cout <<
" FamosHDShower::compute - at long.step " <<
i <<
" too many spots required : " <<
nspots[
i]
544 <<
" !!! " << std::endl;
546 for (
int j = 0;
j <
inf;
j++) {
557 LogInfo(
"FastCalorimetry") << std::endl
558 <<
" FamosHDShower::compute "
559 <<
" r = " <<
radius <<
" phi = " <<
phi << std::endl;
566 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - "
567 <<
" theGrid->addHit result = " <<
result << std::endl;
574 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute - "
575 <<
" theHcalHitMaker->addHit result = " <<
result << std::endl;
587 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute "
588 <<
" maximum number of"
589 <<
" transverse points " <<
count <<
" is used !!!" << std::endl;
593 LogInfo(
"FastCalorimetry") <<
" FamosHDShower::compute "
594 <<
" long.step No." <<
i <<
" Ntry, Nok = " <<
count <<
" " << nok << std::endl;
603 int size = Fhist.size();
611 for (iter = 0; iter <
size; iter++) {
612 if (curr >=
size || curr < 1)
613 LogWarning(
"FastCalorimetry") <<
" FamosHDShower::indexFinder - wrong current index = " << curr <<
" !!!"
616 if ((
x <= Fhist[curr]) && (
x > Fhist[curr - 1]))
619 if (
x > Fhist[curr]) {
624 if (prevdir * actudir < 0) {
628 curr += actudir *
step;
638 LogInfo(
"FastCalorimetry") <<
" indexFinder - end of iter." << iter <<
" curr, F[curr-1], F[curr] = " << curr
639 <<
" " << Fhist[curr - 1] <<
" " << Fhist[curr] << std::endl;
643 LogInfo(
"FastCalorimetry") <<
" indexFinder x = " <<
x <<
" found index = " << curr - 1 << std::endl;
HDShowerParametrization * theParam
int getHDnDepthSteps() const
std::vector< int > nspots
std::vector< double > lamtotal
HcalHitMaker * theHcalHitMaker
double gam(double x, double a) const
std::vector< int > detector
double getHDmaxTRfactor() const
std::vector< double > lamstep
double radLenIncm() const override
Radiation length in cm.
double getHDdepthStep() const
std::vector< double > lamdepth
bool getPads(double depth, bool inCm=false)
bool compute()
Compute the shower longitudinal and lateral development.
bool addHit(double r, double phi, unsigned layer=0) override
double getHDtransParam() const
std::vector< double > eStep
double interactionLength() const override
Interaction length in cm.
double ecalHcalGapTotalL0() const
ECAL-HCAL transition.
double getHDbalanceEH() const
int getHDlossesOpt() const
double getHDhcalDepthFactor() const
const HCALProperties * theHCALproperties
void setSpotEnergy(double e) override
std::vector< double > x0curr
std::vector< double > rlamStep
std::vector< double > lamcurr
const HSParameters * hsParameters() const
const ECALProperties * theECALproperties
const HCALProperties * hcalProperties() const
void makeSteps(int nsteps)
double flatShoot(double xmin=0.0, double xmax=1.0) const
HDShower(const RandomEngineAndDistribution *engine, HDShowerParametrization *myParam, EcalHitMaker *myGrid, HcalHitMaker *myHcalHitMaker, int onECAL, double epart, double pmip)
std::vector< double > x0depth
bool setDepth(double, bool inCm=false)
set the depth in X0 or Lambda0 units depending on showerType
double getHDcriticalEnergy() const
double radLenIncm() const override
Radiation length in cm.
const ECALProperties * ecalProperties() const
double transProb(double factor, double R, double r)
int getHDnTRsteps() const
double ecalHcalGapTotalX0() const
ECAL-HCAL transition.
int indexFinder(double x, const std::vector< double > &Fhist)
const RandomEngineAndDistribution * random
double interactionLength() const override
Interaction length in cm: 18.5 for Standard ECAL.
bool addHit(double r, double phi, unsigned layer=0) override
add the hit in the HCAL in local coordinates
double ecalTotalL0() const
in the ECAL
double getHDeSpotSize() const
double hcalTotalL0() const
in the HCAL
void setSpotEnergy(double e) override
Set the spot energy.