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- // (C) Copyright Nick Thompson 2020.
- // Use, modification and distribution are subject to the
- // Boost Software License, Version 1.0. (See accompanying file
- // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
- #ifndef BOOST_MATH_TOOLS_ULP_PLOT_HPP
- #define BOOST_MATH_TOOLS_ULP_PLOT_HPP
- #include <algorithm>
- #include <iostream>
- #include <iomanip>
- #include <cassert>
- #include <vector>
- #include <utility>
- #include <fstream>
- #include <string>
- #include <list>
- #include <random>
- #include <stdexcept>
- #include <boost/math/tools/condition_numbers.hpp>
- #include <boost/random/uniform_real_distribution.hpp>
- #include <boost/algorithm/string/predicate.hpp>
- // Design of this function comes from:
- // https://blogs.mathworks.com/cleve/2017/01/23/ulps-plots-reveal-math-function-accurary/
- // The envelope is the maximum of 1/2 and half the condition number of function evaluation.
- namespace boost::math::tools {
- namespace detail {
- template<class F1, class F2, class CoarseReal, class PreciseReal>
- void write_gridlines(std::ostream& fs, int horizontal_lines, int vertical_lines,
- F1 x_scale, F2 y_scale, CoarseReal min_x, CoarseReal max_x, PreciseReal min_y, PreciseReal max_y,
- int graph_width, int graph_height, int margin_left, std::string const & font_color)
- {
- // Make a grid:
- for (int i = 1; i <= horizontal_lines; ++i) {
- PreciseReal y_cord_dataspace = min_y + ((max_y - min_y)*i)/horizontal_lines;
- auto y = y_scale(y_cord_dataspace);
- fs << "<line x1='0' y1='" << y << "' x2='" << graph_width
- << "' y2='" << y
- << "' stroke='gray' stroke-width='1' opacity='0.5' stroke-dasharray='4' />\n";
- fs << "<text x='" << -margin_left/4 + 5 << "' y='" << y - 3
- << "' font-family='times' font-size='10' fill='" << font_color << "' transform='rotate(-90 "
- << -margin_left/4 + 8 << " " << y + 5 << ")'>"
- << std::setprecision(4) << y_cord_dataspace << "</text>\n";
- }
- for (int i = 1; i <= vertical_lines; ++i) {
- CoarseReal x_cord_dataspace = min_x + ((max_x - min_x)*i)/vertical_lines;
- CoarseReal x = x_scale(x_cord_dataspace);
- fs << "<line x1='" << x << "' y1='0' x2='" << x
- << "' y2='" << graph_height
- << "' stroke='gray' stroke-width='1' opacity='0.5' stroke-dasharray='4' />\n";
- fs << "<text x='" << x - 10 << "' y='" << graph_height + 10
- << "' font-family='times' font-size='10' fill='" << font_color << "'>"
- << std::setprecision(4) << x_cord_dataspace << "</text>\n";
- }
- }
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- class ulps_plot {
- public:
- ulps_plot(F hi_acc_impl, CoarseReal a, CoarseReal b,
- size_t samples = 1000, bool perturb_abscissas = false, int random_seed = -1);
- ulps_plot& clip(PreciseReal clip);
- ulps_plot& width(int width);
- ulps_plot& envelope_color(std::string const & color);
- ulps_plot& title(std::string const & title);
- ulps_plot& background_color(std::string const & background_color);
- ulps_plot& font_color(std::string const & font_color);
- ulps_plot& crop_color(std::string const & color);
- ulps_plot& nan_color(std::string const & color);
- ulps_plot& ulp_envelope(bool write_ulp);
- template<class G>
- ulps_plot& add_fn(G g, std::string const & color = "steelblue");
- ulps_plot& horizontal_lines(int horizontal_lines);
- ulps_plot& vertical_lines(int vertical_lines);
- void write(std::string const & filename) const;
- friend std::ostream& operator<<(std::ostream& fs, ulps_plot const & plot)
- {
- using std::abs;
- using std::floor;
- using std::isnan;
- if (plot.ulp_list_.size() == 0)
- {
- throw std::domain_error("No functions added for comparison.");
- }
- if (plot.width_ <= 1)
- {
- throw std::domain_error("Width = " + std::to_string(plot.width_) + ", which is too small.");
- }
- PreciseReal worst_ulp_distance = 0;
- PreciseReal min_y = std::numeric_limits<PreciseReal>::max();
- PreciseReal max_y = std::numeric_limits<PreciseReal>::lowest();
- for (auto const & ulp_vec : plot.ulp_list_)
- {
- for (auto const & ulp : ulp_vec)
- {
- if (static_cast<PreciseReal>(abs(ulp)) > worst_ulp_distance)
- {
- worst_ulp_distance = static_cast<PreciseReal>(abs(ulp));
- }
- if (static_cast<PreciseReal>(ulp) < min_y)
- {
- min_y = static_cast<PreciseReal>(ulp);
- }
- if (static_cast<PreciseReal>(ulp) > max_y)
- {
- max_y = static_cast<PreciseReal>(ulp);
- }
- }
- }
- // half-ulp accuracy is the best that can be expected; sometimes we can get less, but barely less.
- // then the axes don't show up; painful!
- if (max_y < 0.5) {
- max_y = 0.5;
- }
- if (min_y > -0.5) {
- min_y = -0.5;
- }
- if (plot.clip_ > 0)
- {
- if (max_y > plot.clip_)
- {
- max_y = plot.clip_;
- }
- if (min_y < -plot.clip_)
- {
- min_y = -plot.clip_;
- }
- }
- int height = static_cast<int>(floor(double(plot.width_)/1.61803));
- int margin_top = 40;
- int margin_left = 25;
- if (plot.title_.size() == 0)
- {
- margin_top = 10;
- margin_left = 15;
- }
- int margin_bottom = 20;
- int margin_right = 20;
- int graph_height = height - margin_bottom - margin_top;
- int graph_width = plot.width_ - margin_left - margin_right;
- // Maps [a,b] to [0, graph_width]
- auto x_scale = [&](CoarseReal x)->CoarseReal
- {
- return ((x-plot.a_)/(plot.b_ - plot.a_))*static_cast<CoarseReal>(graph_width);
- };
- auto y_scale = [&](PreciseReal y)->PreciseReal
- {
- return ((max_y - y)/(max_y - min_y) )*static_cast<PreciseReal>(graph_height);
- };
- fs << "<?xml version=\"1.0\" encoding='UTF-8' ?>\n"
- << "<svg xmlns='http://www.w3.org/2000/svg' width='"
- << plot.width_ << "' height='"
- << height << "'>\n"
- << "<style>\nsvg { background-color:" << plot.background_color_ << "; }\n"
- << "</style>\n";
- if (plot.title_.size() > 0)
- {
- fs << "<text x='" << floor(plot.width_/2)
- << "' y='" << floor(margin_top/2)
- << "' font-family='Palatino' font-size='25' fill='"
- << plot.font_color_ << "' alignment-baseline='middle' text-anchor='middle'>"
- << plot.title_
- << "</text>\n";
- }
- // Construct SVG group to simplify the calculations slightly:
- fs << "<g transform='translate(" << margin_left << ", " << margin_top << ")'>\n";
- // y-axis:
- fs << "<line x1='0' y1='0' x2='0' y2='" << graph_height
- << "' stroke='gray' stroke-width='1'/>\n";
- PreciseReal x_axis_loc = y_scale(static_cast<PreciseReal>(0));
- fs << "<line x1='0' y1='" << x_axis_loc
- << "' x2='" << graph_width << "' y2='" << x_axis_loc
- << "' stroke='gray' stroke-width='1'/>\n";
- if (worst_ulp_distance > 3)
- {
- detail::write_gridlines(fs, plot.horizontal_lines_, plot.vertical_lines_, x_scale, y_scale, plot.a_, plot.b_,
- min_y, max_y, graph_width, graph_height, margin_left, plot.font_color_);
- }
- else
- {
- std::vector<double> ys{-3.0, -2.5, -2.0, -1.5, -1.0, -0.5, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0};
- for (size_t i = 0; i < ys.size(); ++i)
- {
- if (min_y <= ys[i] && ys[i] <= max_y)
- {
- PreciseReal y_cord_dataspace = ys[i];
- PreciseReal y = y_scale(y_cord_dataspace);
- fs << "<line x1='0' y1='" << y << "' x2='" << graph_width
- << "' y2='" << y
- << "' stroke='gray' stroke-width='1' opacity='0.5' stroke-dasharray='4' />\n";
- fs << "<text x='" << -margin_left/2 << "' y='" << y - 3
- << "' font-family='times' font-size='10' fill='" << plot.font_color_ << "' transform='rotate(-90 "
- << -margin_left/2 + 7 << " " << y << ")'>"
- << std::setprecision(4) << y_cord_dataspace << "</text>\n";
- }
- }
- for (int i = 1; i <= plot.vertical_lines_; ++i)
- {
- CoarseReal x_cord_dataspace = plot.a_ + ((plot.b_ - plot.a_)*i)/plot.vertical_lines_;
- CoarseReal x = x_scale(x_cord_dataspace);
- fs << "<line x1='" << x << "' y1='0' x2='" << x
- << "' y2='" << graph_height
- << "' stroke='gray' stroke-width='1' opacity='0.5' stroke-dasharray='4' />\n";
- fs << "<text x='" << x - 10 << "' y='" << graph_height + 10
- << "' font-family='times' font-size='10' fill='" << plot.font_color_ << "'>"
- << std::setprecision(4) << x_cord_dataspace << "</text>\n";
- }
- }
- int color_idx = 0;
- for (auto const & ulp : plot.ulp_list_)
- {
- std::string color = plot.colors_[color_idx++];
- for (size_t j = 0; j < ulp.size(); ++j)
- {
- if (isnan(ulp[j]))
- {
- if(plot.nan_color_ == "")
- continue;
- CoarseReal x = x_scale(plot.coarse_abscissas_[j]);
- PreciseReal y = y_scale(static_cast<PreciseReal>(plot.clip_));
- fs << "<circle cx='" << x << "' cy='" << y << "' r='1' fill='" << plot.nan_color_ << "'/>\n";
- y = y_scale(static_cast<PreciseReal>(-plot.clip_));
- fs << "<circle cx='" << x << "' cy='" << y << "' r='1' fill='" << plot.nan_color_ << "'/>\n";
- }
- if (plot.clip_ > 0 && static_cast<PreciseReal>(abs(ulp[j])) > plot.clip_)
- {
- if (plot.crop_color_ == "")
- continue;
- CoarseReal x = x_scale(plot.coarse_abscissas_[j]);
- PreciseReal y = y_scale(static_cast<PreciseReal>(ulp[j] < 0 ? -plot.clip_ : plot.clip_));
- fs << "<circle cx='" << x << "' cy='" << y << "' r='1' fill='" << plot.crop_color_ << "'/>\n";
- }
- else
- {
- CoarseReal x = x_scale(plot.coarse_abscissas_[j]);
- PreciseReal y = y_scale(static_cast<PreciseReal>(ulp[j]));
- fs << "<circle cx='" << x << "' cy='" << y << "' r='1' fill='" << color << "'/>\n";
- }
- }
- }
- if (plot.ulp_envelope_)
- {
- std::string close_path = "' stroke='" + plot.envelope_color_ + "' stroke-width='1' fill='none'></path>\n";
- size_t jstart = 0;
- while (plot.cond_[jstart] > max_y)
- {
- ++jstart;
- if (jstart >= plot.cond_.size())
- {
- goto done;
- }
- }
- size_t jmin = jstart;
- new_top_path:
- if (jmin >= plot.cond_.size())
- {
- goto start_bottom_paths;
- }
- fs << "<path d='M" << x_scale(plot.coarse_abscissas_[jmin]) << " " << y_scale(plot.cond_[jmin]);
- for (size_t j = jmin + 1; j < plot.coarse_abscissas_.size(); ++j)
- {
- bool bad = isnan(plot.cond_[j]) || (plot.cond_[j] > max_y);
- if (bad)
- {
- ++j;
- while ( (j < plot.coarse_abscissas_.size() - 2) && bad)
- {
- bad = isnan(plot.cond_[j]) || (plot.cond_[j] > max_y);
- ++j;
- }
- jmin = j;
- fs << close_path;
- goto new_top_path;
- }
- CoarseReal t = x_scale(plot.coarse_abscissas_[j]);
- PreciseReal y = y_scale(plot.cond_[j]);
- fs << " L" << t << " " << y;
- }
- fs << close_path;
- start_bottom_paths:
- jmin = jstart;
- new_bottom_path:
- if (jmin >= plot.cond_.size())
- {
- goto done;
- }
- fs << "<path d='M" << x_scale(plot.coarse_abscissas_[jmin]) << " " << y_scale(-plot.cond_[jmin]);
- for (size_t j = jmin + 1; j < plot.coarse_abscissas_.size(); ++j)
- {
- bool bad = isnan(plot.cond_[j]) || (-plot.cond_[j] < min_y);
- if (bad)
- {
- ++j;
- while ( (j < plot.coarse_abscissas_.size() - 2) && bad)
- {
- bad = isnan(plot.cond_[j]) || (-plot.cond_[j] < min_y);
- ++j;
- }
- jmin = j;
- fs << close_path;
- goto new_bottom_path;
- }
- CoarseReal t = x_scale(plot.coarse_abscissas_[j]);
- PreciseReal y = y_scale(-plot.cond_[j]);
- fs << " L" << t << " " << y;
- }
- fs << close_path;
- }
- done:
- fs << "</g>\n"
- << "</svg>\n";
- return fs;
- }
- private:
- std::vector<PreciseReal> precise_abscissas_;
- std::vector<CoarseReal> coarse_abscissas_;
- std::vector<PreciseReal> precise_ordinates_;
- std::vector<PreciseReal> cond_;
- std::list<std::vector<CoarseReal>> ulp_list_;
- std::vector<std::string> colors_;
- CoarseReal a_;
- CoarseReal b_;
- PreciseReal clip_;
- int width_;
- std::string envelope_color_;
- bool ulp_envelope_;
- int horizontal_lines_;
- int vertical_lines_;
- std::string title_;
- std::string background_color_;
- std::string font_color_;
- std::string crop_color_;
- std::string nan_color_;
- };
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::envelope_color(std::string const & color)
- {
- envelope_color_ = color;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::clip(PreciseReal clip)
- {
- clip_ = clip;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::width(int width)
- {
- width_ = width;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::horizontal_lines(int horizontal_lines)
- {
- horizontal_lines_ = horizontal_lines;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::vertical_lines(int vertical_lines)
- {
- vertical_lines_ = vertical_lines;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::title(std::string const & title)
- {
- title_ = title;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::background_color(std::string const & background_color)
- {
- background_color_ = background_color;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::font_color(std::string const & font_color)
- {
- font_color_ = font_color;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::crop_color(std::string const & color)
- {
- crop_color_ = color;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::nan_color(std::string const & color)
- {
- nan_color_ = color;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::ulp_envelope(bool write_ulp_envelope)
- {
- ulp_envelope_ = write_ulp_envelope;
- return *this;
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- void ulps_plot<F, PreciseReal, CoarseReal>::write(std::string const & filename) const
- {
- if (!boost::algorithm::ends_with(filename, ".svg"))
- {
- throw std::logic_error("Only svg files are supported at this time.");
- }
- std::ofstream fs(filename);
- fs << *this;
- fs.close();
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- ulps_plot<F, PreciseReal, CoarseReal>::ulps_plot(F hi_acc_impl, CoarseReal a, CoarseReal b,
- size_t samples, bool perturb_abscissas, int random_seed) : crop_color_("red")
- {
- // Use digits10 for this comparison in case the two types have differeing radixes:
- static_assert(std::numeric_limits<PreciseReal>::digits10 >= std::numeric_limits<CoarseReal>::digits10, "PreciseReal must have higher precision that CoarseReal");
- if (samples < 10)
- {
- throw std::domain_error("Must have at least 10 samples, samples = " + std::to_string(samples));
- }
- if (b <= a)
- {
- throw std::domain_error("On interval [a,b], b > a is required.");
- }
- a_ = a;
- b_ = b;
- std::mt19937_64 gen;
- if (random_seed == -1)
- {
- std::random_device rd;
- gen.seed(rd());
- }
- // Boost's uniform_real_distribution can generate quad and multiprecision random numbers; std's cannot:
- boost::random::uniform_real_distribution<PreciseReal> dis(static_cast<PreciseReal>(a), static_cast<PreciseReal>(b));
- precise_abscissas_.resize(samples);
- coarse_abscissas_.resize(samples);
- if (perturb_abscissas)
- {
- for(size_t i = 0; i < samples; ++i)
- {
- precise_abscissas_[i] = dis(gen);
- }
- std::sort(precise_abscissas_.begin(), precise_abscissas_.end());
- for (size_t i = 0; i < samples; ++i)
- {
- coarse_abscissas_[i] = static_cast<CoarseReal>(precise_abscissas_[i]);
- }
- }
- else
- {
- for(size_t i = 0; i < samples; ++i)
- {
- coarse_abscissas_[i] = static_cast<CoarseReal>(dis(gen));
- }
- std::sort(coarse_abscissas_.begin(), coarse_abscissas_.end());
- for (size_t i = 0; i < samples; ++i)
- {
- precise_abscissas_[i] = static_cast<PreciseReal>(coarse_abscissas_[i]);
- }
- }
- precise_ordinates_.resize(samples);
- for (size_t i = 0; i < samples; ++i)
- {
- precise_ordinates_[i] = hi_acc_impl(precise_abscissas_[i]);
- }
- cond_.resize(samples, std::numeric_limits<PreciseReal>::quiet_NaN());
- for (size_t i = 0 ; i < samples; ++i)
- {
- PreciseReal y = precise_ordinates_[i];
- if (y != 0)
- {
- // Maybe cond_ is badly names; should it be half_cond_?
- cond_[i] = boost::math::tools::evaluation_condition_number(hi_acc_impl, precise_abscissas_[i])/2;
- // Half-ULP accuracy is the correctly rounded result, so make sure the envelop doesn't go below this:
- if (cond_[i] < 0.5)
- {
- cond_[i] = 0.5;
- }
- }
- // else leave it as nan.
- }
- clip_ = -1;
- width_ = 1100;
- envelope_color_ = "chartreuse";
- ulp_envelope_ = true;
- horizontal_lines_ = 8;
- vertical_lines_ = 10;
- title_ = "";
- background_color_ = "black";
- font_color_ = "white";
- }
- template<class F, typename PreciseReal, typename CoarseReal>
- template<class G>
- ulps_plot<F, PreciseReal, CoarseReal>& ulps_plot<F, PreciseReal, CoarseReal>::add_fn(G g, std::string const & color)
- {
- using std::abs;
- size_t samples = precise_abscissas_.size();
- std::vector<CoarseReal> ulps(samples);
- for (size_t i = 0; i < samples; ++i)
- {
- PreciseReal y_hi_acc = precise_ordinates_[i];
- PreciseReal y_lo_acc = static_cast<PreciseReal>(g(coarse_abscissas_[i]));
- PreciseReal absy = abs(y_hi_acc);
- PreciseReal dist = static_cast<PreciseReal>(nextafter(static_cast<CoarseReal>(absy), std::numeric_limits<CoarseReal>::max()) - static_cast<CoarseReal>(absy));
- ulps[i] = static_cast<CoarseReal>((y_lo_acc - y_hi_acc)/dist);
- }
- ulp_list_.emplace_back(ulps);
- colors_.emplace_back(color);
- return *this;
- }
- } // namespace boost::math::tools
- #endif
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