RecoTracker
TkSeedGenerator
src
FastCircle.cc
Go to the documentation of this file.
1
#include "
RecoTracker/TkSeedGenerator/interface/FastCircle.h
"
2
#include "
DataFormats/Math/interface/AlgebraicROOTObjects.h
"
3
4
FastCircle::FastCircle
(
const
GlobalPoint
& outerHit,
const
GlobalPoint
& middleHit,
const
GlobalPoint
& aVertex)
5
: theOuterPoint(outerHit),
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theInnerPoint(middleHit),
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theVertexPoint(aVertex),
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theNorm(128.),
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theX0(0.),
10
theY0(0.),
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theRho(0.),
12
theN1(0.),
13
theN2(0.),
14
theC(0.),
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theValid(
true
),
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theIsLine(
false
) {
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createCircleParameters
();
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}
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FastCircle::FastCircle
(
const
GlobalPoint
& outerHit,
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const
GlobalPoint
& middleHit,
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const
GlobalPoint
& aVertex,
23
double
norm)
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: theOuterPoint(outerHit),
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theInnerPoint(middleHit),
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theVertexPoint(aVertex),
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theNorm(norm),
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theX0(0.),
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theY0(0.),
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theRho(0.),
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theN1(0.),
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theN2(0.),
33
theC(0.),
34
theValid(
true
),
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theIsLine(
false
) {
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createCircleParameters
();
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}
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namespace
{
40
inline
AlgebraicVector3
transform
(
const
GlobalPoint
& aPoint,
float
norm) {
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AlgebraicVector3
riemannPoint;
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auto
p
= aPoint.
basicVector
() / norm;
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float
R2 =
p
.perp2();
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float
fact
= 1.f / (1.f + R2);
// let's factorize the common factor out
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riemannPoint[0] =
fact
*
p
.x();
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riemannPoint[1] =
fact
*
p
.y();
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riemannPoint[2] =
fact
* R2;
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return
riemannPoint;
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}
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}
// namespace
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void
FastCircle::createCircleParameters
() {
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AlgebraicVector3
x
=
transform
(
theOuterPoint
,
theNorm
);
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AlgebraicVector3
y
=
transform
(
theInnerPoint
,
theNorm
);
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AlgebraicVector3
z
=
transform
(
theVertexPoint
,
theNorm
);
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AlgebraicVector3
n
;
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n
[0] =
x
[1] * (
y
[2] -
z
[2]) +
y
[1] * (
z
[2] -
x
[2]) +
z
[1] * (
x
[2] -
y
[2]);
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n
[1] = -(
x
[0] * (
y
[2] -
z
[2]) +
y
[0] * (
z
[2] -
x
[2]) +
z
[0] * (
x
[2] -
y
[2]));
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n
[2] =
x
[0] * (
y
[1] -
z
[1]) +
y
[0] * (
z
[1] -
x
[1]) +
z
[0] * (
x
[1] -
y
[1]);
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double
mag2
=
n
[0] *
n
[0] +
n
[1] *
n
[1] +
n
[2] *
n
[2];
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if
(
mag2
< 1.
e
-20) {
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theValid
=
false
;
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return
;
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}
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n
.Unit();
// reduce n to a unit vector
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double
c
= -(
n
[0] *
x
[0] +
n
[1] *
x
[1] +
n
[2] *
x
[2]);
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// c = -(n[0]*y[0] + n[1]*y[1] + n[2]*y[2]);
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// c = -(n[0]*z[0] + n[1]*z[1] + n[2]*z[2]);
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theN1
=
n
[0];
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theN2
=
n
[1];
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theC
=
c
;
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if
(fabs(
c
+
n
[2]) < 1.e-5) {
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// numeric limit
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// circle is more a straight line...
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theValid
=
false
;
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theIsLine
=
true
;
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return
;
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}
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double
x0
= -
n
[0] / (2. * (
c
+
n
[2]));
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double
y0
= -
n
[1] / (2. * (
c
+
n
[2]));
90
double
rho
=
sqrt
((
n
[0] *
n
[0] +
n
[1] *
n
[1] - 4. *
c
* (
c
+
n
[2]))) / fabs(2. * (
c
+
n
[2]));
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theX0
=
theNorm
*
x0
;
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theY0
=
theNorm
*
y0
;
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theRho
=
theNorm
*
rho
;
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}
FastCircle::theInnerPoint
GlobalPoint theInnerPoint
Definition:
FastCircle.h:67
DDAxes::y
AlgebraicVector3
ROOT::Math::SVector< double, 3 > AlgebraicVector3
Definition:
AlgebraicROOTObjects.h:12
FastCircle::theN2
double theN2
Definition:
FastCircle.h:76
FastCircle::theRho
double theRho
Definition:
FastCircle.h:73
funct::false
false
Definition:
Factorize.h:34
dqmiodumpmetadata.n
n
Definition:
dqmiodumpmetadata.py:28
FastCircle::theX0
double theX0
Definition:
FastCircle.h:71
FastCircle::theOuterPoint
GlobalPoint theOuterPoint
Definition:
FastCircle.h:66
AlCaHLTBitMon_ParallelJobs.p
p
Definition:
AlCaHLTBitMon_ParallelJobs.py:153
FastCircle::y0
double y0() const
Definition:
FastCircle.h:45
DDAxes::x
FastCircle::theVertexPoint
GlobalPoint theVertexPoint
Definition:
FastCircle.h:68
FastCircle::rho
double rho() const
Definition:
FastCircle.h:47
FastCircle::theIsLine
bool theIsLine
Definition:
FastCircle.h:80
mathSSE::sqrt
T sqrt(T t)
Definition:
SSEVec.h:19
DDAxes::z
FastCircle::theN1
double theN1
Definition:
FastCircle.h:75
HcalDetIdTransform::transform
unsigned transform(const HcalDetId &id, unsigned transformCode)
Definition:
HcalDetIdTransform.cc:7
Point3DBase< float, GlobalTag >
FastCircle::x0
double x0() const
Definition:
FastCircle.h:43
funct::true
true
Definition:
Factorize.h:173
FastCircle::theNorm
double theNorm
Definition:
FastCircle.h:69
fact
const double fact
Definition:
NuclearInteractionFTFSimulator.cc:74
mag2
T mag2() const
The vector magnitude squared. Equivalent to vec.dot(vec)
Definition:
Basic3DVectorLD.h:124
FastCircle::c
double c() const
Definition:
FastCircle.h:59
FastCircle::createCircleParameters
void createCircleParameters()
Definition:
FastCircle.cc:55
PV3DBase::basicVector
const BasicVectorType & basicVector() const
Definition:
PV3DBase.h:53
FastCircle::FastCircle
FastCircle(const GlobalPoint &outerHit, const GlobalPoint &middleHit, const GlobalPoint &aVertex)
Definition:
FastCircle.cc:4
FastCircle::theValid
bool theValid
Definition:
FastCircle.h:79
FastCircle::theC
double theC
Definition:
FastCircle.h:77
AlgebraicROOTObjects.h
FastCircle.h
FastCircle::theY0
double theY0
Definition:
FastCircle.h:72
MillePedeFileConverter_cfg.e
e
Definition:
MillePedeFileConverter_cfg.py:37
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