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Author SHA1 Message Date
6739019c83 log scale basis in plots 2024-01-12 14:22:23 +01:00
13fddf4947 DWT concatenation and CDR 2024-01-12 14:22:05 +01:00
1604b4712f CDR & NSDR 2024-01-12 14:21:39 +01:00
10 changed files with 108 additions and 19 deletions

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@ -18,6 +18,7 @@
*/ */
#include <LatAnalyze/Core/Math.hpp> #include <LatAnalyze/Core/Math.hpp>
#include <LatAnalyze/Numerical/GslFFT.hpp>
#include <LatAnalyze/includes.hpp> #include <LatAnalyze/includes.hpp>
#include <gsl/gsl_cdf.h> #include <gsl/gsl_cdf.h>
@ -48,16 +49,42 @@ DMat MATH_NAMESPACE::corrToVar(const DMat &corr, const DVec &varDiag)
return res; return res;
} }
double MATH_NAMESPACE::svdDynamicRange(const DMat &mat) double MATH_NAMESPACE::conditionNumber(const DMat &mat)
{ {
DVec s = mat.singularValues(); DVec s = mat.singularValues();
return s.maxCoeff()/s.minCoeff(); return s.maxCoeff()/s.minCoeff();
} }
double MATH_NAMESPACE::svdDynamicRangeDb(const DMat &mat) double MATH_NAMESPACE::cdr(const DMat &mat)
{ {
return 10.*log10(svdDynamicRange(mat)); return 10.*log10(conditionNumber(mat));
}
template <typename FFT>
double nsdr(const DMat &m)
{
Index n = m.rows();
FFT fft(n);
CMat buf(n, 1);
FOR_VEC(buf, i)
{
buf(i) = 0.;
for (Index j = 0; j < n; ++j)
{
buf(i) += m(j, (i+j) % n);
}
buf(i) /= n;
}
fft(buf, FFT::Forward);
return 10.*log10(buf.real().maxCoeff()/buf.real().minCoeff());
}
double MATH_NAMESPACE::nsdr(const DMat &mat)
{
return ::nsdr<GslFFT>(mat);
} }
/****************************************************************************** /******************************************************************************

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@ -73,8 +73,9 @@ namespace MATH_NAMESPACE
DMat corrToVar(const DMat &corr, const DVec &varDiag); DMat corrToVar(const DMat &corr, const DVec &varDiag);
// matrix SVD dynamic range // matrix SVD dynamic range
double svdDynamicRange(const DMat &mat); double conditionNumber(const DMat &mat);
double svdDynamicRangeDb(const DMat &mat); double cdr(const DMat &mat);
double nsdr(const DMat &mat);
// Constants // Constants
constexpr double pi = 3.1415926535897932384626433832795028841970; constexpr double pi = 3.1415926535897932384626433832795028841970;

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@ -515,14 +515,16 @@ void Dash::operator()(PlotOptions &option) const
} }
// LogScale constructor //////////////////////////////////////////////////////// // LogScale constructor ////////////////////////////////////////////////////////
LogScale::LogScale(const Axis axis) LogScale::LogScale(const Axis axis, const double basis)
: axis_(axis) : axis_(axis)
, basis_(basis)
{} {}
// Logscale modifier /////////////////////////////////////////////////////////// // Logscale modifier ///////////////////////////////////////////////////////////
void LogScale::operator()(PlotOptions &option) const void LogScale::operator()(PlotOptions &option) const
{ {
option.scaleMode[static_cast<int>(axis_)] |= Plot::Scale::log; option.scaleMode[static_cast<int>(axis_)] |= Plot::Scale::log;
option.logScaleBasis[static_cast<int>(axis_)] = basis_;
} }
// PlotRange constructors ////////////////////////////////////////////////////// // PlotRange constructors //////////////////////////////////////////////////////
@ -915,11 +917,11 @@ ostream & Latan::operator<<(ostream &out, const Plot &plot)
out << "unset log" << endl; out << "unset log" << endl;
if (plot.options_.scaleMode[x] & Plot::Scale::log) if (plot.options_.scaleMode[x] & Plot::Scale::log)
{ {
out << "set log x" << endl; out << "set log x " << plot.options_.logScaleBasis[x] << endl;;
} }
if (plot.options_.scaleMode[y] & Plot::Scale::log) if (plot.options_.scaleMode[y] & Plot::Scale::log)
{ {
out << "set log y" << endl; out << "set log y " << plot.options_.logScaleBasis[y] << endl;
} }
if (!plot.options_.label[x].empty()) if (!plot.options_.label[x].empty())
{ {

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@ -227,6 +227,7 @@ struct PlotOptions
std::string caption; std::string caption;
std::string title; std::string title;
unsigned int scaleMode[2]; unsigned int scaleMode[2];
double logScaleBasis[2];
Range scale[2]; Range scale[2];
std::string label[2]; std::string label[2];
std::string lineColor; std::string lineColor;
@ -314,13 +315,14 @@ class LogScale: public PlotModifier
{ {
public: public:
// constructor // constructor
explicit LogScale(const Axis axis); explicit LogScale(const Axis axis, const double basis = 10);
// destructor // destructor
virtual ~LogScale(void) = default; virtual ~LogScale(void) = default;
// modifier // modifier
virtual void operator()(PlotOptions &option) const; virtual void operator()(PlotOptions &option) const;
private: private:
const Axis axis_; const Axis axis_;
const double basis_;
}; };
class PlotRange: public PlotModifier class PlotRange: public PlotModifier

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@ -135,3 +135,26 @@ DVec DWT::backward(const std::vector<DWTLevel>& dwt) const
return res; return res;
} }
// concatenate levels //////////////////////////////////////////////////////////
DVec DWT::concat(const std::vector<DWTLevel> &dwt, const int maxLevel, const bool dropLow)
{
unsigned int level = ((maxLevel >= 0) ? (maxLevel + 1) : dwt.size());
Index nlast = dwt[level - 1].first.size();
Index n = 2*dwt.front().first.size() - ((dropLow) ? nlast : 0);
Index pt = n, nl;
DVec res(n);
for (unsigned int l = 0; l < level; ++l)
{
nl = dwt[l].second.size();
pt -= nl;
res.segment(pt, nl) = dwt[l].second;
}
if (!dropLow)
{
res.segment(0, nl) = dwt[level-1].first;
}
return res;
}

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@ -46,6 +46,8 @@ public:
// DWT // DWT
std::vector<DWTLevel> forward(const DVec &data, const unsigned int level) const; std::vector<DWTLevel> forward(const DVec &data, const unsigned int level) const;
DVec backward(const std::vector<DWTLevel>& dwt) const; DVec backward(const std::vector<DWTLevel>& dwt) const;
// concatenate levels
static DVec concat(const std::vector<DWTLevel>& dwt, const int maxLevel = -1, const bool dropLow = false);
private: private:
DWTFilter filter_; DWTFilter filter_;
}; };

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@ -343,7 +343,7 @@ SampleFitResult XYSampleData::fit(std::vector<Minimizer *> &minimizer,
result.nPar_ = sampleResult.getNPar(); result.nPar_ = sampleResult.getNPar();
result.nDof_ = sampleResult.nDof_; result.nDof_ = sampleResult.nDof_;
result.parName_ = sampleResult.parName_; result.parName_ = sampleResult.parName_;
result.corrRangeDb_ = Math::svdDynamicRangeDb(getFitCorrMat()); result.corrRangeDb_ = Math::cdr(getFitCorrMat());
return result; return result;
} }

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@ -358,7 +358,7 @@ FitResult XYStatData::fit(vector<Minimizer *> &minimizer, const DVec &init,
result = (*m)(chi2); result = (*m)(chi2);
totalInit = result; totalInit = result;
} }
result.corrRangeDb_ = Math::svdDynamicRangeDb(getFitCorrMat()); result.corrRangeDb_ = Math::cdr(getFitCorrMat());
result.chi2_ = chi2(result); result.chi2_ = chi2(result);
result.nPar_ = nPar; result.nPar_ = nPar;
result.nDof_ = layout.totalYSize - nPar; result.nDof_ = layout.totalYSize - nPar;

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@ -17,6 +17,7 @@
* along with LatAnalyze 3. If not, see <http://www.gnu.org/licenses/>. * along with LatAnalyze 3. If not, see <http://www.gnu.org/licenses/>.
*/ */
#include <LatAnalyze/Core/Math.hpp>
#include <LatAnalyze/Core/OptParser.hpp> #include <LatAnalyze/Core/OptParser.hpp>
#include <LatAnalyze/Core/Plot.hpp> #include <LatAnalyze/Core/Plot.hpp>
#include <LatAnalyze/Io/Io.hpp> #include <LatAnalyze/Io/Io.hpp>
@ -53,6 +54,12 @@ int main(int argc, char *argv[])
cerr << "usage: " << argv[0]; cerr << "usage: " << argv[0];
cerr << " <options> <input file>" << endl; cerr << " <options> <input file>" << endl;
cerr << endl << "Possible options:" << endl << opt << endl; cerr << endl << "Possible options:" << endl << opt << endl;
cerr << "Available DWT filters:" << endl;
for (auto &fv: DWTFilters::fromName)
{
cerr << fv.first << " ";
}
cerr << endl << endl;
return EXIT_FAILURE; return EXIT_FAILURE;
} }
@ -68,22 +75,45 @@ int main(int argc, char *argv[])
DMatSample in = Io::load<DMatSample>(inFilename), res; DMatSample in = Io::load<DMatSample>(inFilename), res;
Index nSample = in.size(), n = in[central].rows(); Index nSample = in.size(), n = in[central].rows();
vector<DMatSample> out(ss ? 1 : level, DMatSample(nSample)), vector<DMatSample> out(ss ? 1 : level, DMatSample(nSample)),
outh(ss ? 0 : level, DMatSample(nSample)); outh(ss ? 0 : level, DMatSample(nSample)),
concath(ss ? 0 : level, DMatSample(nSample));
DMatSample concat(nSample, n, 1);
DWT dwt(*DWTFilters::fromName.at(filterName)); DWT dwt(*DWTFilters::fromName.at(filterName));
vector<DWT::DWTLevel> dataDWT(level); vector<DWT::DWTLevel> dataDWT(level);
FOR_STAT_ARRAY(in, s)
{
in[s].conservativeResize(n, 1);
}
if (!ss) if (!ss)
{ {
DMatSample buf(nSample);
cout << "-- compute discrete wavelet transform" << endl; cout << "-- compute discrete wavelet transform" << endl;
cout << "filter '" << filterName << "' / " << level << " level(s)" << endl; cout << "filter '" << filterName << "' / " << level << " level(s)" << endl;
FOR_STAT_ARRAY(in, s) FOR_STAT_ARRAY(in, s)
{ {
dataDWT = dwt.forward(in[s].col(0), level); dataDWT = dwt.forward(in[s], level);
for (unsigned int l = 0; l < level; ++l) for (unsigned int l = 0; l < level; ++l)
{ {
out[l][s] = dataDWT[l].first; out[l][s] = dataDWT[l].first;
outh[l][s] = dataDWT[l].second; outh[l][s] = dataDWT[l].second;
concath[l][s] = DWT::concat(dataDWT, l, true);
} }
concat[s] = DWT::concat(dataDWT);
}
cout << "Data CDR " << Math::cdr(in.correlationMatrix()) << " dB" << endl;
cout << "DWT CDR " << Math::cdr(concat.correlationMatrix()) << " dB" << endl;
for (unsigned int l = 0; l < level; ++l)
{
cout << "DWT level " << l << " CDR: L= ";
cout << Math::cdr(out[l].correlationMatrix()) << " dB / H= ";
cout << Math::cdr(outh[l].correlationMatrix()) << " dB" << endl;
}
for (unsigned int l = 0; l < level; ++l)
{
cout << "DWT detail level " << l << " CDR: ";
cout << Math::cdr(concath[l].correlationMatrix()) << " dB" << endl;
} }
} }
else else
@ -102,7 +132,7 @@ int main(int argc, char *argv[])
} }
FOR_STAT_ARRAY(in, s) FOR_STAT_ARRAY(in, s)
{ {
dataDWT.back().first = in[s].col(0); dataDWT.back().first = in[s];
out[0][s] = dwt.backward(dataDWT); out[0][s] = dwt.backward(dataDWT);
} }
} }
@ -115,7 +145,9 @@ int main(int argc, char *argv[])
{ {
Io::save<DMatSample>(out[l], outFilename + "/L" + strFrom(l) + ".h5"); Io::save<DMatSample>(out[l], outFilename + "/L" + strFrom(l) + ".h5");
Io::save<DMatSample>(outh[l], outFilename + "/H" + strFrom(l) + ".h5"); Io::save<DMatSample>(outh[l], outFilename + "/H" + strFrom(l) + ".h5");
Io::save<DMatSample>(concath[l], outFilename + "/concatH" + strFrom(l) + ".h5");
} }
Io::save<DMatSample>(concat, outFilename + "/concat.h5");
} }
else else
{ {

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@ -68,7 +68,7 @@ int main(int argc, char *argv[])
var = sample.varianceMatrix(); var = sample.varianceMatrix();
corr = sample.correlationMatrix(); corr = sample.correlationMatrix();
cout << "dynamic range " << Math::svdDynamicRangeDb(corr) << " dB" << endl; cout << "dynamic range " << Math::cdr(corr) << " dB" << endl;
p << PlotCorrMatrix(corr); p << PlotCorrMatrix(corr);
p.display(); p.display();
if (!outVarName.empty()) if (!outVarName.empty())