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LatAnalyze/latan/XYStatData.cpp

274 lines
6.9 KiB
C++

/*
* XYStatData.cpp, part of LatAnalyze 3
*
* Copyright (C) 2013 - 2014 Antonin Portelli
*
* LatAnalyze 3 is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* LatAnalyze 3 is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with LatAnalyze 3. If not, see <http://www.gnu.org/licenses/>.
*/
#include <latan/XYStatData.hpp>
#include <latan/includes.hpp>
using namespace std;
using namespace Latan;
/******************************************************************************
* FitResult implementation *
******************************************************************************/
// access //////////////////////////////////////////////////////////////////////
double FitResult::getChi2(void) const
{
return chi2_;
}
double FitResult::getChi2PerDof(void) const
{
return chi2_/static_cast<double>(nDof_);
}
/******************************************************************************
* XYStatData implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
XYStatData::XYStatData(void)
: chi2_(*this)
{}
XYStatData::XYStatData(const Index nData, const Index xDim, const Index yDim)
: XYStatData()
{
resize(nData, xDim, yDim);
}
// access //////////////////////////////////////////////////////////////////////
void XYStatData::assumeXExact(const Index i, const bool isExact)
{
isXExact_[i] = (isExact) ? 1 : 0;
}
void XYStatData::fitPoint(const Index i, const bool isFitPoint)
{
isFitPoint_[i] = (isFitPoint) ? 1 : 0;
}
void XYStatData::fitPointRange(const Index k1, const Index k2,
const bool isFitPoint)
{
int size = static_cast<int>(k2-k1+1);
isFitPoint_.segment(k1, size) = IVec::Constant(size, (isFitPoint) ? 1 : 0);
}
void XYStatData::fitAllPoints(const bool isFitPoint)
{
fitPointRange(0, getNData()-1, isFitPoint);
}
Index XYStatData::getNData(void) const
{
return x_.rows();
}
Index XYStatData::getNFitPoint(void) const
{
return isFitPoint_.sum();
}
Index XYStatData::getXDim(void) const
{
return x_.cols();
}
Index XYStatData::getYDim(void) const
{
return y_.cols();
}
Index XYStatData::getStatXDim(void) const
{
return isXExact_.size() - isXExact_.sum();
}
void XYStatData::setNData(const Index nData)
{
resize(nData, getXDim(), getYDim());
}
void XYStatData::setXDim(const Index xDim)
{
resize(getNData(), xDim, getYDim());
}
void XYStatData::setYDim(const Index yDim)
{
resize(getNData(), getXDim(), yDim);
}
void XYStatData::resize(const Index nData, const Index xDim, const Index yDim)
{
x_.conservativeResize(nData, xDim);
y_.conservativeResize(nData, yDim);
isXExact_.conservativeResize(xDim);
isFitPoint_.conservativeResize(nData);
var_[xx].conservativeResize(xDim, xDim);
var_[yy].conservativeResize(yDim, yDim);
var_[yx].conservativeResize(yDim, xDim);
FOR_MAT(var_[xx], i1, i2)
{
var_[xx](i1, i2).conservativeResize(nData, nData);
}
FOR_MAT(var_[yy], j1, j2)
{
var_[yy](j1, j2).conservativeResize(nData, nData);
}
FOR_MAT(var_[yx], j, i)
{
var_[yx](j, i).conservativeResize(nData, nData);
}
}
#define FULL_BLOCK(m) (m).block(0, 0, (m).rows(), (m).cols())
#define ACCESS_DATA(xy, ij, k) \
if ((ij >= 0)&&(k >= 0))\
{\
return xy.block(k, ij, 1, 1);\
}\
else if ((ij < 0)&&(k >= 0))\
{\
return xy.block(k, 0, 1, getXDim());\
}\
else if ((ij >= 0)&&(k < 0))\
{\
return xy.block(0, ij, getNData(), 1);\
}\
else\
{\
return xy.block(0, 0, getNData(), getXDim());\
}
Block<DMatBase> XYStatData::x(const Index i, const Index k)
{
ACCESS_DATA(x_, i, k);
}
ConstBlock<DMatBase> XYStatData::x(const Index i, const Index k) const
{
ACCESS_DATA(x_, i, k);
}
Block<DMatBase> XYStatData::y(const Index j, const Index k)
{
ACCESS_DATA(y_, j, k);
}
ConstBlock<DMatBase> XYStatData::y(const Index j, const Index k) const
{
ACCESS_DATA(y_, j, k);
}
Block<DMatBase> XYStatData::xxVar(const Index i1, const Index i2)
{
return FULL_BLOCK(var_[xx](i1, i2));
}
ConstBlock<DMatBase> XYStatData::xxVar(const Index i1, const Index i2) const
{
return FULL_BLOCK(var_[xx](i1, i2));
}
Block<DMatBase> XYStatData::yyVar(const Index j1, const Index j2)
{
return FULL_BLOCK(var_[yy](j1, j2));
}
ConstBlock<DMatBase> XYStatData::yyVar(const Index j1, const Index j2) const
{
return FULL_BLOCK(var_[yy](j1, j2));
}
Block<DMatBase> XYStatData::yxVar(const Index j, const Index i)
{
return FULL_BLOCK(var_[yx](j, i));
}
ConstBlock<DMatBase> XYStatData::yxVar(const Index j, const Index i) const
{
return FULL_BLOCK(var_[yx](j, i));
}
// test ////////////////////////////////////////////////////////////////////////
bool XYStatData::isFitPoint(const Index k) const
{
return (isFitPoint_[k] == 1);
}
bool XYStatData::isXExact(const Index i) const
{
return (isXExact_[i] == 1);
}
// fit /////////////////////////////////////////////////////////////////////////
FitResult XYStatData::fit(const vector<const DoubleModel *> &modelVector,
Minimizer &minimizer, const DVec &init,
const bool reinitChi2,
const FitVerbosity verbosity)
{
// initialization
chi2_.setModel(modelVector);
if (reinitChi2)
{
chi2_.requestInit();
}
minimizer.setVerbosity(verbosity);
// initial parameters
const Index nPoint = getNFitPoint();
DVec fullInit = init;
Index is = 0, kf = 0;
fullInit.conservativeResize(chi2_.getNArg());
for (Index i = 0; i < getXDim(); ++i)
if (!isXExact(i))
{
for (Index k = 0; k < getNData(); ++k)
if (isFitPoint(k))
{
fullInit(chi2_.getNPar() + nPoint*is + kf) = x(i, k)(0, 0);
kf++;
}
is++;
}
minimizer.setInit(fullInit);
// fit
FitResult result;
result = minimizer(chi2_);
result.chi2_ = chi2_(result);
result.nDof_ = chi2_.getNDof();
return result;
}
FitResult XYStatData::fit(const DoubleModel &model, Minimizer &minimizer,
const DVec &init, const bool reinitChi2,
const FitVerbosity verbosity)
{
vector<const DoubleModel *> modelVector(1);
modelVector[0] = &model;
return fit(modelVector, minimizer, init, reinitChi2, verbosity);
}