#include <XHistogram.h>
Classes | |
struct | position |
Public Types | |
typedef TH2I | ColorMap |
typedef TH2F | Histogram |
typedef std::pair< double, double > | Range |
Public Member Functions | |
ColorMap * | colormap (void) const |
access the colormap | |
void | fill (double x, double y, const std::vector< double > &weight, double norm) |
fill one point | |
void | fill (double x, double y, const std::vector< double > &weight, double norm, unsigned int colour) |
fill one point and set its color | |
void | fill (const Range &x, const Range &y, const std::vector< double > &weight, double norm) |
fill one segment, normalizing each bin's weight to the fraction of the segment it contains | |
void | fill (const Range &x, const Range &y, const std::vector< double > &weight, double norm, unsigned int colour) |
fill one segment and set its color, normalizing each bin's weight to the fraction of the segment it contains | |
Histogram * | get (size_t h=0) const |
access one of the histograms | |
Histogram * | normalization (void) const |
access the normalization | |
void | normalize (void) |
normalize the histograms | |
void | setMinDl (double dl) |
XHistogram (void) | |
default CTOR | |
XHistogram (size_t size, size_t bins_x, size_t bins_y, Range x, Range y, size_t zones, std::vector< double > max) | |
Protected Member Functions | |
void | check_weight (const std::vector< double > &weight) throw (std::invalid_argument) |
check the weights passed as an std::vector have the correct size | |
std::vector< position > | splitSegment (Range x, Range y) const |
split a segment into a vector of points | |
Protected Attributes | |
boost::shared_ptr< ColorMap > | m_colormap |
boost::shared_ptr< Histogram > | m_dummy |
std::vector< boost::shared_ptr < Histogram > > | m_histograms |
double | m_minDl |
boost::shared_ptr< Histogram > | m_normalization |
size_t | m_size |
size_t | m_xBins |
Range | m_xRange |
size_t | m_yBins |
Range | m_yRange |
Definition at line 13 of file XHistogram.h.
typedef TH2I XHistogram::ColorMap |
Definition at line 16 of file XHistogram.h.
typedef TH2F XHistogram::Histogram |
Definition at line 17 of file XHistogram.h.
typedef std::pair<double, double> XHistogram::Range |
Definition at line 18 of file XHistogram.h.
XHistogram::XHistogram | ( | void | ) | [inline] |
default CTOR
Definition at line 35 of file XHistogram.h.
: m_minDl( 0.000001 ), m_xRange(), m_yRange(), m_xBins(), m_yBins(), m_size(), m_histograms(), m_normalization(), m_colormap(), m_dummy() { }
XHistogram::XHistogram | ( | size_t | size, |
size_t | bins_x, | ||
size_t | bins_y, | ||
Range | x, | ||
Range | y, | ||
size_t | zones, | ||
std::vector< double > | max | ||
) | [inline] |
Definition at line 49 of file XHistogram.h.
References i, m_colormap, m_histograms, m_normalization, and m_size.
: m_minDl( 0.000001 ), m_xRange( x ), m_yRange( y ), m_xBins( bins_x ), m_yBins( bins_y ), m_size( size ), m_histograms( m_size ), m_normalization(), m_colormap() { // setup unnamed ROOT histograms for (size_t i = 0; i < m_size; ++i) { m_histograms[i].reset(new Histogram( 0, 0, bins_x, x.first, x.second, bins_y, y.first, y.second )); m_histograms[i]->SetMinimum( 0. ); m_histograms[i]->SetMaximum( max[i] ); } m_normalization.reset(new Histogram( 0, 0, bins_x, x.first, x.second, bins_y, y.first, y.second )); m_colormap.reset(new ColorMap( 0, 0, bins_x, x.first, x.second, bins_y, y.first, y.second )); m_colormap->SetMinimum( 0 ); m_colormap->SetMaximum( zones ); Histogram( 0, 0, 0, 0., 0., 0, 0., 0. ); // make ROOT "forget" about unnamed histograms }
void XHistogram::check_weight | ( | const std::vector< double > & | weight | ) | throw (std::invalid_argument) [inline, protected] |
check the weights passed as an std::vector have the correct size
Definition at line 135 of file XHistogram.h.
References m_size, and CommonMethods::weight().
Referenced by fill().
ColorMap* XHistogram::colormap | ( | void | ) | const [inline] |
access the colormap
Definition at line 104 of file XHistogram.h.
References m_colormap.
Referenced by TrackingMaterialPlotter::draw().
{ return (ColorMap *) m_colormap->Clone(0); }
void XHistogram::fill | ( | double | x, |
double | y, | ||
const std::vector< double > & | weight, | ||
double | norm, | ||
unsigned int | colour | ||
) |
fill one point and set its color
Definition at line 81 of file XHistogram.cc.
References check_weight(), HcalObjRepresent::Fill(), h, m_colormap, m_histograms, m_normalization, and m_size.
{ check_weight( weight ); for (size_t h = 0; h < m_size; ++h) m_histograms[h]->Fill( x, y, weight[h] ); m_normalization->Fill( x, y, norm ); m_colormap->SetBinContent( m_colormap->FindBin(x, y), (float) colour ); }
void XHistogram::fill | ( | const Range & | x, |
const Range & | y, | ||
const std::vector< double > & | weight, | ||
double | norm, | ||
unsigned int | colour | ||
) |
fill one segment and set its color, normalizing each bin's weight to the fraction of the segment it contains
Definition at line 105 of file XHistogram.cc.
References check_weight(), f, HcalObjRepresent::Fill(), h, i, m_colormap, m_histograms, m_normalization, m_size, alignCSCRings::s, splitSegment(), and v.
{ check_weight( weight ); std::vector<position> v = splitSegment( x, y ); for (size_t i = 0, s = v.size(); i < s; ++i) { for (size_t h = 0; h < m_size; ++h) m_histograms[h]->Fill( v[i].x, v[i].y, v[i].f * weight[h] ); m_normalization->Fill( v[i].x, v[i].y, v[i].f * norm ); m_colormap->SetBinContent( m_colormap->FindBin(v[i].x, v[i].y), (float) colour ); } }
void XHistogram::fill | ( | double | x, |
double | y, | ||
const std::vector< double > & | weight, | ||
double | norm | ||
) |
fill one point
Definition at line 71 of file XHistogram.cc.
References check_weight(), HcalObjRepresent::Fill(), h, m_histograms, m_normalization, and m_size.
Referenced by TrackingMaterialPlotter::plotSegmentInLayer(), and TrackingMaterialPlotter::plotSegmentUnassigned().
void XHistogram::fill | ( | const Range & | x, |
const Range & | y, | ||
const std::vector< double > & | weight, | ||
double | norm | ||
) |
fill one segment, normalizing each bin's weight to the fraction of the segment it contains
Definition at line 92 of file XHistogram.cc.
References check_weight(), f, HcalObjRepresent::Fill(), h, i, m_histograms, m_normalization, m_size, alignCSCRings::s, splitSegment(), and v.
Histogram* XHistogram::get | ( | size_t | h = 0 | ) | const [inline] |
access one of the histograms
Definition at line 89 of file XHistogram.h.
References h, m_histograms, and m_size.
Referenced by TrackingMaterialPlotter::draw().
{ if (h < m_size) return (Histogram *) m_histograms[h]->Clone(0); else return 0; }
Histogram* XHistogram::normalization | ( | void | ) | const [inline] |
access the normalization
Definition at line 98 of file XHistogram.h.
References m_normalization.
{ return (Histogram *) m_normalization->Clone(0); }
void XHistogram::normalize | ( | void | ) |
normalize the histograms
Definition at line 119 of file XHistogram.cc.
References h, i, m_histograms, m_normalization, and m_size.
Referenced by TrackingMaterialPlotter::normalize().
{ for (int i = 0; i < m_normalization->GetSize(); ++i) { if ((*m_normalization)[i] > 0.) { for (size_t h = 0; h < m_size; ++h) (*m_histograms[h])[i] /= (*m_normalization)[i]; (*m_normalization)[i] = 1.; } } }
void XHistogram::setMinDl | ( | double | dl | ) | [inline] |
set the minimum length of sub-segment a segment should be split into: when splitting across bin boundaries with splitSegment(...), sub-segments shorter than this are skipped
Definition at line 111 of file XHistogram.h.
References m_minDl.
{ m_minDl = dl; }
std::vector< XHistogram::position > XHistogram::splitSegment | ( | Range | x, |
Range | y | ||
) | const [protected] |
split a segment into a vector of points
Definition at line 7 of file XHistogram.cc.
References f, i, m_minDl, m_xBins, m_xRange, m_yBins, m_yRange, position, query::result, alignCSCRings::s, python::multivaluedict::sort(), relval_steps::steps, v, x, and detailsBasic3DVector::y.
Referenced by fill().
{ double deltaX = rangeX.second - rangeX.first; double deltaY = rangeY.second - rangeY.first; double length = hypot(deltaX, deltaY); double stepX = (m_xRange.second - m_xRange.first) / m_xBins; double stepY = (m_yRange.second - m_yRange.first) / m_yBins; int min_i, max_i, min_j, max_j; if (rangeX.first < rangeX.second) { min_i = (int) ceil(rangeX.first / stepX); // included max_i = (int) floor(rangeX.second / stepX) + 1; // excluded } else { min_i = (int) ceil(rangeX.second / stepX); max_i = (int) floor(rangeX.first / stepX) + 1; } if (rangeY.first < rangeY.second) { min_j = (int) ceil(rangeY.first / stepY); max_j = (int) floor(rangeY.second / stepY) + 1; } else { min_j = (int) ceil(rangeY.second / stepY); max_j = (int) floor(rangeY.first / stepY) + 1; } int steps = max_i-min_i + max_j-min_j + 2; std::vector<position> v; v.clear(); v.reserve(steps); v.push_back( position(0., rangeX.first, rangeY.first) ); double x, y, f; for (int i = min_i; i < max_i; ++i) { x = i * stepX; y = rangeY.first + (x - rangeX.first) * deltaY / deltaX; f = std::fabs( (x - rangeX.first) / deltaX ); v.push_back( position(f, x, y) ); } for (int i = min_j; i < max_j; ++i) { y = i * stepY; x = rangeX.first + (y - rangeY.first) * deltaX / deltaY; f = std::fabs( (y - rangeY.first) / deltaY ); v.push_back( position(f, x, y) ); } v.push_back( position(1., rangeX.second, rangeY.second) ); // sort by distance from the start of the segment std::sort(v.begin(), v.end()); // filter away the fragments shorter than m_minDl, and save the center of each fragment along with its fractionary length std::vector<position> result; result.push_back( v.front() ); for (int i = 1, s = v.size(); i < s; ++i) { double mx = (v[i].x + v[i-1].x) / 2.; double my = (v[i].y + v[i-1].y) / 2.; double df = (v[i].f - v[i-1].f); if (df * length < m_minDl) continue; result.push_back( position( df, mx, my ) ); } return result; }
boost::shared_ptr<ColorMap> XHistogram::m_colormap [protected] |
Definition at line 30 of file XHistogram.h.
Referenced by colormap(), fill(), and XHistogram().
boost::shared_ptr<Histogram> XHistogram::m_dummy [protected] |
Definition at line 31 of file XHistogram.h.
std::vector< boost::shared_ptr<Histogram> > XHistogram::m_histograms [protected] |
Definition at line 28 of file XHistogram.h.
Referenced by fill(), get(), normalize(), and XHistogram().
double XHistogram::m_minDl [protected] |
Definition at line 21 of file XHistogram.h.
Referenced by setMinDl(), and splitSegment().
boost::shared_ptr<Histogram> XHistogram::m_normalization [protected] |
Definition at line 29 of file XHistogram.h.
Referenced by fill(), normalization(), normalize(), and XHistogram().
size_t XHistogram::m_size [protected] |
Definition at line 26 of file XHistogram.h.
Referenced by check_weight(), fill(), get(), normalize(), and XHistogram().
size_t XHistogram::m_xBins [protected] |
Definition at line 24 of file XHistogram.h.
Referenced by splitSegment().
Range XHistogram::m_xRange [protected] |
Definition at line 22 of file XHistogram.h.
Referenced by splitSegment().
size_t XHistogram::m_yBins [protected] |
Definition at line 25 of file XHistogram.h.
Referenced by splitSegment().
Range XHistogram::m_yRange [protected] |
Definition at line 23 of file XHistogram.h.
Referenced by splitSegment().