mirror of
https://github.com/saitohirga/WSJT-X.git
synced 2024-11-25 05:38:46 -05:00
2131414791
Use a header format for polynomial coefficients that includes the valid X range in scaled terms and a count of the number of coefficients. Use double precision consistently for polynomial coefficients. This includes formatting with sufficient DPs when writing to files. Many changes to the equalization plots, more to come. Add error handling for reading coefficient, plot and filter files. This includes being backward compatible for old format refspec.dat files with no header. git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@7578 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
545 lines
17 KiB
C++
545 lines
17 KiB
C++
#include "PhaseEqualizationDialog.hpp"
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#include <iterator>
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#include <algorithm>
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#include <fstream>
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#include <limits>
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#include <cmath>
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#include <QDir>
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#include <QVector>
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#include <QHBoxLayout>
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#include <QDialog>
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#include <QDialogButtonBox>
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#include <QPushButton>
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#include <QFileDialog>
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#include <QSettings>
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#include "SettingsGroup.hpp"
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#include "qcustomplot.h"
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#include "pimpl_impl.hpp"
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namespace
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{
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float constexpr PI = 3.1415927f;
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char const * const title = "Phase Equalization";
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size_t constexpr intervals = 144;
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// plot data loaders - wraps a plot providing value_type and
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// push_back so that a std::back_inserter output iterator can be
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// used to load plot data
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template<typename T, typename A>
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struct plot_data_loader
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{
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public:
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typedef T value_type;
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// the adjust argument is a function that is passed the plot
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// pointer, the graph index and a data point, it returns a
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// possibly adjusted data point and can modify the graph including
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// adding extra points or gaps (quiet_NaN)
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plot_data_loader (QCustomPlot * plot, int graph_index, A adjust)
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: plot_ {plot}
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, index_ {graph_index}
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, adjust_ (adjust)
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{
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}
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// load point into graph
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void push_back (value_type const& d)
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{
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plot_->graph (index_)->data ()->add (adjust_ (plot_, index_, d));
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}
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private:
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QCustomPlot * plot_;
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int index_;
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A adjust_;
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};
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// helper function template to make a plot_data_loader instance
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template<typename A>
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auto make_plot_data_loader (QCustomPlot * plot, int index, A adjust)
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-> plot_data_loader<QCPGraphData, decltype (adjust)>
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{
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return plot_data_loader<QCPGraphData, decltype (adjust)> {plot, index, adjust};
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}
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// identity adjust function when no adjustment is needed with the
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// above instantiation helper
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QCPGraphData adjust_identity (QCustomPlot *, int, QCPGraphData const& v) {return v;}
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// a plot_data_loader adjustment function that wraps Y values of
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// (-1..+1) plotting discontinuities as gaps in the graph data
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auto wrap_pi = [] (QCustomPlot * plot, int index, QCPGraphData d)
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{
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double constexpr limit {1};
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static unsigned wrap_count {0};
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static double last_x {std::numeric_limits<double>::lowest ()};
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d.value += 2 * limit * wrap_count;
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if (d.value > limit)
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{
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// insert a gap in the graph
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plot->graph (index)->data ()->add ({last_x + (d.key - last_x) / 2
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, std::numeric_limits<double>::quiet_NaN ()});
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while (d.value > limit)
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{
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--wrap_count;
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d.value -= 2 * limit;
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}
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}
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else if (d.value < -limit)
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{
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// insert a gap into the graph
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plot->graph (index)->data ()->add ({last_x + (d.key - last_x) / 2
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, std::numeric_limits<double>::quiet_NaN ()});
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while (d.value < -limit)
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{
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++wrap_count;
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d.value += 2 * limit;
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}
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}
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last_x = d.key;
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return d;
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};
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// generate points of type R from a function of type F for X in
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// (-1..+1) with N intervals and function of type SX to scale X and
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// of type SY to scale Y
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//
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// it is up to the user to call the generator sufficient times which
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// is interval+1 times to reach +1
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template<typename R, typename F, typename SX, typename SY>
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struct graph_generator
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{
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public:
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graph_generator (F f, size_t intervals, SX x_scaling, SY y_scaling)
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: x_ {0}
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, f_ (f)
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, intervals_ {intervals}
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, x_scaling_ (x_scaling)
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, y_scaling_ (y_scaling)
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{
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}
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R operator () ()
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{
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typename F::value_type x {x_++ * 2.f / intervals_ - 1.f};
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return {x_scaling_ (x), y_scaling_ (f_ (x))};
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}
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private:
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int x_;
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F f_;
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size_t intervals_;
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SX x_scaling_;
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SY y_scaling_;
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};
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// helper function template to make a graph_generator instance for
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// QCPGraphData type points with intervals intervals
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template<typename F, typename SX, typename SY>
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auto make_graph_generator (F function, SX x_scaling, SY y_scaling)
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-> graph_generator<QCPGraphData, F, decltype (x_scaling), decltype (y_scaling)>
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{
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return graph_generator<QCPGraphData, F, decltype (x_scaling), decltype (y_scaling)>
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{function, intervals, x_scaling, y_scaling};
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}
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// template function object for a polynomial with coefficients
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template<typename C>
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class polynomial
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{
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public:
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typedef typename C::value_type value_type;
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explicit polynomial (C const& coefficients)
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: c_ {coefficients}
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{
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}
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value_type operator () (value_type const& x)
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{
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value_type y {};
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for (typename C::size_type i = c_.size (); i > 0; --i)
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{
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y = c_[i - 1] + x * y;
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}
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return y;
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}
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private:
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C c_;
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};
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// helper function template to instantiate a polynomial instance
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template<typename C>
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auto make_polynomial (C const& coefficients) -> polynomial<C>
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{
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return polynomial<C> (coefficients);
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}
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// template function object for a group delay with coefficients
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template<typename C>
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class group_delay
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{
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public:
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typedef typename C::value_type value_type;
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explicit group_delay (C const& coefficients)
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: c_ {coefficients}
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{
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}
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value_type operator () (value_type const& x)
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{
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value_type tau {};
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for (typename C::size_type i = 2; i < c_.size (); ++i)
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{
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tau += i * c_[i] * std::pow (x, i - 1);
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}
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return -1 / (2 * PI) * tau;
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}
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private:
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C c_;
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};
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// helper function template to instantiate a group_delay function
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// object
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template<typename C>
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auto make_group_delay (C const& coefficients) -> group_delay<C>
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{
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return group_delay<C> (coefficients);
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}
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// handy identity function
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template<typename T> T identity (T const& v) {return v;}
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// a lambda that scales the X axis from normalized to (500..2500)Hz
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auto freq_scaling = [] (float v) -> float {return 1500.f + 1000.f * v;};
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// a lambda that scales the phase Y axis from radians to units of Pi
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auto pi_scaling = [] (float v) -> float {return v / PI;};
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}
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class PhaseEqualizationDialog::impl final
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: public QDialog
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{
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Q_OBJECT
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public:
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explicit impl (PhaseEqualizationDialog * self, QSettings * settings
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, QDir const& data_directory, QVector<double> const& coefficients
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, QWidget * parent);
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~impl () {save_window_state ();}
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protected:
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void closeEvent (QCloseEvent * e) override
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{
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save_window_state ();
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QDialog::closeEvent (e);
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}
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private:
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void save_window_state ()
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{
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SettingsGroup g (settings_, title);
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settings_->setValue ("geometry", saveGeometry ());
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}
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void plot_current ();
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void plot_phase ();
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void plot_amplitude ();
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PhaseEqualizationDialog * self_;
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QSettings * settings_;
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QDir data_directory_;
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QHBoxLayout layout_;
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QVector<double> current_coefficients_;
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QVector<double> new_coefficients_;
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unsigned amp_poly_low_;
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unsigned amp_poly_high_;
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QVector<double> amp_coefficients_;
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QCustomPlot plot_;
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QDialogButtonBox button_box_;
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};
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#include "PhaseEqualizationDialog.moc"
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PhaseEqualizationDialog::PhaseEqualizationDialog (QSettings * settings
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, QDir const& data_directory
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, QVector<double> const& coefficients
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, QWidget * parent)
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: m_ {this, settings, data_directory, coefficients, parent}
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{
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}
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void PhaseEqualizationDialog::show ()
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{
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m_->show ();
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}
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PhaseEqualizationDialog::impl::impl (PhaseEqualizationDialog * self
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, QSettings * settings
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, QDir const& data_directory
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, QVector<double> const& coefficients
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, QWidget * parent)
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: QDialog {parent}
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, self_ {self}
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, settings_ {settings}
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, data_directory_ {data_directory}
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, current_coefficients_ {coefficients}
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, amp_poly_low_ {0}
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, amp_poly_high_ {6000}
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, button_box_ {QDialogButtonBox::Discard | QDialogButtonBox::Apply
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| QDialogButtonBox::RestoreDefaults | QDialogButtonBox::Close
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, Qt::Vertical}
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{
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setWindowTitle (windowTitle () + ' ' + tr (title));
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resize (500, 600);
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{
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SettingsGroup g {settings_, title};
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restoreGeometry (settings_->value ("geometry", saveGeometry ()).toByteArray ());
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}
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auto legend_title = new QCPTextElement {&plot_, tr ("Phase"), QFont {"sans", 9, QFont::Bold}};
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legend_title->setLayer (plot_.legend->layer ());
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plot_.legend->addElement (0, 0, legend_title);
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plot_.legend->setVisible (true);
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plot_.xAxis->setLabel (tr ("Freq (Hz)"));
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plot_.xAxis->setRange (500, 2500);
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plot_.yAxis->setLabel (tr ("Phase (Π)"));
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plot_.yAxis->setRange (-1, +1);
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plot_.yAxis2->setLabel (tr ("Delay (ms)"));
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plot_.axisRect ()->setRangeDrag (Qt::Vertical);
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plot_.axisRect ()->setRangeZoom (Qt::Vertical);
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plot_.yAxis2->setVisible (true);
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plot_.axisRect ()->setRangeDragAxes (nullptr, plot_.yAxis2);
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plot_.axisRect ()->setRangeZoomAxes (nullptr, plot_.yAxis2);
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plot_.axisRect ()->insetLayout ()->setInsetAlignment (0, Qt::AlignBottom|Qt::AlignRight);
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plot_.setInteractions (QCP::iRangeDrag | QCP::iRangeZoom | QCP::iSelectPlottables);
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plot_.addGraph ()->setName (tr ("Measured"));
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plot_.graph ()->setPen (QPen {Qt::blue});
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plot_.graph ()->setVisible (false);
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plot_.graph ()->removeFromLegend ();
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plot_.addGraph ()->setName (tr ("Proposed"));
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plot_.graph ()->setPen (QPen {Qt::red});
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plot_.graph ()->setVisible (false);
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plot_.graph ()->removeFromLegend ();
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plot_.addGraph ()->setName (tr ("Current"));
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plot_.graph ()->setPen (QPen {Qt::green});
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plot_.addGraph (plot_.xAxis, plot_.yAxis2)->setName (tr ("Group Delay"));
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plot_.graph ()->setPen (QPen {Qt::darkGreen});
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plot_.plotLayout ()->addElement (new QCPAxisRect {&plot_});
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plot_.plotLayout ()->setRowStretchFactor (1, 0.5);
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auto amp_legend = new QCPLegend;
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plot_.axisRect (1)->insetLayout ()->addElement (amp_legend, Qt::AlignTop | Qt::AlignRight);
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plot_.axisRect (1)->insetLayout ()->setMargins (QMargins {12, 12, 12, 12});
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amp_legend->setVisible (true);
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amp_legend->setLayer (QLatin1String {"legend"});
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legend_title = new QCPTextElement {&plot_, tr ("Amplitude"), QFont {"sans", 9, QFont::Bold}};
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legend_title->setLayer (amp_legend->layer ());
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amp_legend->addElement (0, 0, legend_title);
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plot_.axisRect (1)->axis (QCPAxis::atBottom)->setLabel (tr ("Freq (Hz)"));
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plot_.axisRect (1)->axis (QCPAxis::atBottom)->setRange (0, 6000);
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plot_.axisRect (1)->axis (QCPAxis::atLeft)->setLabel (tr ("Relative Power (dB)"));
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plot_.axisRect (1)->axis (QCPAxis::atLeft)->setRangeLower (0);
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plot_.axisRect (1)->setRangeDragAxes (nullptr, nullptr);
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plot_.axisRect (1)->setRangeZoomAxes (nullptr, nullptr);
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plot_.addGraph (plot_.axisRect (1)->axis (QCPAxis::atBottom)
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, plot_.axisRect (1)->axis (QCPAxis::atLeft))->setName (tr ("Reference"));
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plot_.graph ()->setPen (QPen {Qt::blue});
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plot_.graph ()->removeFromLegend ();
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plot_.graph ()->addToLegend (amp_legend);
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layout_.addWidget (&plot_);
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auto load_phase_button = button_box_.addButton (tr ("Phase ..."), QDialogButtonBox::ActionRole);
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auto refresh_button = button_box_.addButton (tr ("Refresh"), QDialogButtonBox::ActionRole);
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layout_.addWidget (&button_box_);
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setLayout (&layout_);
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connect (&button_box_, &QDialogButtonBox::rejected, this, &QDialog::reject);
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connect (&button_box_, &QDialogButtonBox::clicked, [=] (QAbstractButton * button) {
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if (button == load_phase_button)
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{
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plot_phase ();
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}
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else if (button == refresh_button)
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{
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plot_current ();
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}
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else if (button == button_box_.button (QDialogButtonBox::Apply))
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{
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if (plot_.graph (0)->dataCount ()) // something loaded
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{
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current_coefficients_ = new_coefficients_;
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Q_EMIT self_->phase_equalization_changed (current_coefficients_);
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plot_current ();
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}
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}
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else if (button == button_box_.button (QDialogButtonBox::RestoreDefaults))
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{
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current_coefficients_ = QVector<double> {0., 0., 0., 0., 0.};
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Q_EMIT self_->phase_equalization_changed (current_coefficients_);
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plot_current ();
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}
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else if (button == button_box_.button (QDialogButtonBox::Discard))
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{
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new_coefficients_ = QVector<double> {0., 0., 0., 0., 0.};
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plot_.graph (0)->data ()->clear ();
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plot_.graph (0)->setVisible (false);
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plot_.graph (0)->removeFromLegend ();
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plot_.graph (1)->data ()->clear ();
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plot_.graph (1)->setVisible (false);
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plot_.graph (1)->removeFromLegend ();
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plot_.replot ();
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}
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});
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plot_current ();
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}
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struct PowerSpectrumPoint
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{
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operator QCPGraphData () const
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{
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return QCPGraphData {freq_, power_};
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}
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float freq_;
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float power_;
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};
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// read an amplitude point line from a stream (refspec.dat)
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std::istream& operator >> (std::istream& is, PowerSpectrumPoint& r)
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{
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float y1, y3, y4; // discard these
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is >> r.freq_ >> y1 >> r.power_ >> y3 >> y4;
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return is;
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}
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void PhaseEqualizationDialog::impl::plot_current ()
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{
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auto phase_graph = make_plot_data_loader (&plot_, 2, wrap_pi);
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plot_.graph (2)->data ()->clear ();
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std::generate_n (std::back_inserter (phase_graph), intervals + 1
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, make_graph_generator (make_polynomial (current_coefficients_), freq_scaling, pi_scaling));
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auto group_delay_graph = make_plot_data_loader (&plot_, 3, adjust_identity);
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plot_.graph (3)->data ()->clear ();
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std::generate_n (std::back_inserter (group_delay_graph), intervals + 1
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, make_graph_generator (make_group_delay (current_coefficients_), freq_scaling, identity<double>));
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plot_.graph (3)->rescaleValueAxis ();
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QFileInfo refspec_file_info {data_directory_.absoluteFilePath ("refspec.dat")};
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std::ifstream refspec_file (refspec_file_info.absoluteFilePath ().toLatin1 ().constData (), std::ifstream::in);
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unsigned n;
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if (refspec_file >> amp_poly_low_ >> amp_poly_high_ >> n)
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{
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std::istream_iterator<double> isi {refspec_file};
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amp_coefficients_.clear ();
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std::copy_n (isi, n, std::back_inserter (amp_coefficients_));
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}
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else
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{
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// may be old format refspec.dat with no header so rewind
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refspec_file.clear ();
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refspec_file.seekg (0);
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}
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auto reference_spectrum_graph = make_plot_data_loader (&plot_, 4, adjust_identity);
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plot_.graph (4)->data ()->clear ();
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std::copy (std::istream_iterator<PowerSpectrumPoint> {refspec_file},
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std::istream_iterator<PowerSpectrumPoint> {},
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std::back_inserter (reference_spectrum_graph));
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plot_.graph (4)->rescaleValueAxis (true);
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plot_.replot ();
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}
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struct PhasePoint
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{
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operator QCPGraphData () const
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{
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return QCPGraphData {freq_, phase_};
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}
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double freq_;
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double phase_;
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};
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// read a phase point line from a stream (pcoeff file)
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std::istream& operator >> (std::istream& is, PhasePoint& c)
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{
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double pp, sigmay; // discard these
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if (is >> c.freq_ >> pp >> c.phase_ >> sigmay)
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{
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c.freq_ = 1500. + 1000. * c.freq_; // scale frequency to Hz
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c.phase_ /= PI; // scale to units of Pi
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}
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return is;
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}
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void PhaseEqualizationDialog::impl::plot_phase ()
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{
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auto const& phase_file_name = QFileDialog::getOpenFileName (this
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, "Select Phase Response Coefficients"
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, data_directory_.absolutePath ()
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, "Phase Coefficient Files (*.pcoeff)");
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if (!phase_file_name.size ()) return;
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std::ifstream phase_file (phase_file_name.toLatin1 ().constData (), std::ifstream::in);
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int n;
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float chi;
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float rmsdiff;
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unsigned freq_low;
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unsigned freq_high;
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unsigned terms;
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// read header information
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if (phase_file >> n >> chi >> rmsdiff >> freq_low >> freq_high >> terms)
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{
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std::istream_iterator<double> isi {phase_file};
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new_coefficients_.clear ();
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std::copy_n (isi, terms, std::back_inserter (new_coefficients_));
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if (phase_file)
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{
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plot_.graph (0)->data ()->clear ();
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plot_.graph (1)->data ()->clear ();
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// read the phase data and plot as graph 0
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auto graph = make_plot_data_loader (&plot_, 0, adjust_identity);
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std::copy_n (std::istream_iterator<PhasePoint> {phase_file},
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intervals + 1, std::back_inserter (graph));
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if (phase_file)
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{
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plot_.graph (0)->setVisible (true);
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plot_.graph (0)->addToLegend ();
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// generate the proposed polynomial plot as graph 1
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auto graph = make_plot_data_loader (&plot_, 1, wrap_pi);
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std::generate_n (std::back_inserter (graph), intervals + 1
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, make_graph_generator (make_polynomial (new_coefficients_)
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, freq_scaling, pi_scaling));
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plot_.graph (1)->setVisible (true);
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plot_.graph (1)->addToLegend ();
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}
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plot_.replot ();
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}
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}
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}
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#include "moc_PhaseEqualizationDialog.cpp"
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