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- // Copyright 2015-2019 Hans Dembinski
- // Copyright 2019 Przemyslaw Bartosik
- //
- // Distributed under 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_HISTOGRAM_OSTREAM_HPP
- #define BOOST_HISTOGRAM_OSTREAM_HPP
- #include <boost/histogram/accumulators/ostream.hpp>
- #include <boost/histogram/axis/ostream.hpp>
- #include <boost/histogram/detail/counting_streambuf.hpp>
- #include <boost/histogram/detail/priority.hpp>
- #include <boost/histogram/indexed.hpp>
- #include <cmath>
- #include <iomanip>
- #include <ios>
- #include <limits>
- #include <numeric>
- #include <ostream>
- #include <streambuf>
- #include <type_traits>
- /**
- \file boost/histogram/ostream.hpp
- A simple streaming operator for the histogram type. The text representation is
- rudimentary and not guaranteed to be stable between versions of Boost.Histogram. This
- header is not included by any other header and must be explicitly included to use the
- streaming operator.
- To use your own, simply include your own implementation instead of this header.
- */
- namespace boost {
- namespace histogram {
- namespace detail {
- template <class OStream, unsigned N>
- class tabular_ostream_wrapper : public std::array<int, N> {
- using base_t = std::array<int, N>;
- using char_type = typename OStream::char_type;
- using traits_type = typename OStream::traits_type;
- public:
- template <class T>
- tabular_ostream_wrapper& operator<<(const T& t) {
- if (collect_) {
- if (static_cast<unsigned>(iter_ - base_t::begin()) == size_) {
- ++size_;
- assert(size_ <= N);
- assert(iter_ != end());
- *iter_ = 0;
- }
- count_ = 0;
- os_ << t;
- *iter_ = std::max(*iter_, static_cast<int>(count_));
- } else {
- assert(iter_ != end());
- os_ << std::setw(*iter_) << t;
- }
- ++iter_;
- return *this;
- }
- tabular_ostream_wrapper& operator<<(decltype(std::setprecision(0)) t) {
- os_ << t;
- return *this;
- }
- tabular_ostream_wrapper& operator<<(decltype(std::fixed) t) {
- os_ << t;
- return *this;
- }
- tabular_ostream_wrapper& row() {
- iter_ = base_t::begin();
- return *this;
- }
- explicit tabular_ostream_wrapper(OStream& os)
- : os_(os), cbuf_(count_), orig_(os_.rdbuf(&cbuf_)) {}
- auto end() { return base_t::begin() + size_; }
- auto end() const { return base_t::begin() + size_; }
- auto cend() const { return base_t::cbegin() + size_; }
- void complete() {
- assert(collect_); // only call this once
- collect_ = false;
- os_.rdbuf(orig_);
- }
- private:
- typename base_t::iterator iter_ = base_t::begin();
- unsigned size_ = 0;
- std::streamsize count_ = 0;
- bool collect_ = true;
- OStream& os_;
- counting_streambuf<char_type, traits_type> cbuf_;
- std::basic_streambuf<char_type, traits_type>* orig_;
- };
- template <class OStream, class T>
- void ostream_value_impl(OStream& os, const T& t,
- decltype(static_cast<double>(t), priority<1>{})) {
- // a value from histogram cell
- const auto d = static_cast<double>(t);
- if (std::numeric_limits<int>::min() <= d && d <= std::numeric_limits<int>::max()) {
- const auto i = static_cast<int>(d);
- if (i == d) {
- os << i;
- return;
- }
- }
- os << std::defaultfloat << std::setprecision(4) << d;
- }
- template <class OStream, class T>
- void ostream_value_impl(OStream& os, const T& t, priority<0>) {
- os << t;
- }
- template <class OStream, class T>
- void ostream_value(OStream& os, const T& t) {
- ostream_value_impl(os << std::left, t, priority<1>{});
- }
- template <class OStream, class Axis>
- auto ostream_bin(OStream& os, const Axis& ax, axis::index_type i, std::true_type,
- priority<1>) -> decltype((void)ax.value(i)) {
- auto a = ax.value(i), b = ax.value(i + 1);
- os << std::right << std::defaultfloat << std::setprecision(4);
- // round edges to zero if deviation from zero is small
- const auto eps = 1e-8 * std::abs(b - a);
- if (std::abs(a) < 1e-14 && std::abs(a) < eps) a = 0;
- if (std::abs(b) < 1e-14 && std::abs(b) < eps) b = 0;
- os << "[" << a << ", " << b << ")";
- }
- template <class OStream, class Axis>
- auto ostream_bin(OStream& os, const Axis& ax, axis::index_type i, std::false_type,
- priority<1>) -> decltype((void)ax.value(i)) {
- os << std::right;
- os << ax.value(i);
- }
- template <class OStream, class... Ts>
- void ostream_bin(OStream& os, const axis::category<Ts...>& ax, axis::index_type i,
- std::false_type, priority<1>) {
- os << std::right;
- if (i < ax.size())
- os << ax.value(i);
- else
- os << "other";
- }
- template <class OStream, class Axis, class B>
- void ostream_bin(OStream& os, const Axis&, axis::index_type i, B, priority<0>) {
- os << std::right;
- os << i;
- }
- template <class CharT>
- struct line_t {
- CharT ch;
- int size;
- };
- template <class CharT>
- auto line(CharT c, int n) {
- return line_t<CharT>{c, n};
- }
- template <class C, class T>
- std::basic_ostream<C, T>& operator<<(std::basic_ostream<C, T>& os, line_t<C>&& l) {
- for (int i = 0; i < l.size; ++i) os << l.ch;
- return os;
- }
- template <class OStream, class Axis>
- void ostream_head(OStream& os, const Axis& ax, int index, double val) {
- axis::visit(
- [&](const auto& ax) {
- using A = std::decay_t<decltype(ax)>;
- ostream_bin(os, ax, index, axis::traits::is_continuous<A>{}, priority<1>{});
- os << ' ';
- ostream_value(os, val);
- },
- ax);
- }
- // cannot display generalized histograms yet; line not reachable by coverage tests
- template <class OStream, class Histogram>
- void ascii_plot(OStream&, const Histogram&, int, std::false_type) {} // LCOV_EXCL_LINE
- template <class OStream, class Histogram>
- void ascii_plot(OStream& os, const Histogram& h, int w_total, std::true_type) {
- if (w_total == 0) w_total = 78; // TODO detect actual width of terminal
- const auto& ax = h.axis();
- // value range; can be integer or float, positive or negative
- double vmin = 0;
- double vmax = 0;
- tabular_ostream_wrapper<OStream, 7> tos(os);
- // first pass to get widths
- for (auto&& v : indexed(h, coverage::all)) {
- ostream_head(tos.row(), ax, v.index(), *v);
- vmin = std::min(vmin, static_cast<double>(*v));
- vmax = std::max(vmax, static_cast<double>(*v));
- }
- tos.complete();
- if (vmax == 0) vmax = 1;
- // calculate width useable by bar (notice extra space at top)
- // <-- head --> |<--- bar ---> |
- // w_head + 2 + 2
- const auto w_head = std::accumulate(tos.begin(), tos.end(), 0);
- const auto w_bar = w_total - 4 - w_head;
- if (w_bar < 0) return;
- // draw upper line
- os << '\n' << line(' ', w_head + 1) << '+' << line('-', w_bar + 1) << "+\n";
- const int zero_offset = static_cast<int>(std::lround((-vmin) / (vmax - vmin) * w_bar));
- for (auto&& v : indexed(h, coverage::all)) {
- ostream_head(tos.row(), ax, v.index(), *v);
- // rest uses os, not tos
- os << " |";
- const int k = static_cast<int>(std::lround(*v / (vmax - vmin) * w_bar));
- if (k < 0) {
- os << line(' ', zero_offset + k) << line('=', -k) << line(' ', w_bar - zero_offset);
- } else {
- os << line(' ', zero_offset) << line('=', k) << line(' ', w_bar - zero_offset - k);
- }
- os << " |\n";
- }
- // draw lower line
- os << line(' ', w_head + 1) << '+' << line('-', w_bar + 1) << "+\n";
- }
- template <class OStream, class Histogram>
- void ostream(OStream& os, const Histogram& h, const bool show_values = true) {
- os << "histogram(";
- unsigned iaxis = 0;
- const auto rank = h.rank();
- h.for_each_axis([&](const auto& ax) {
- if ((show_values && rank > 0) || rank > 1) os << "\n ";
- ostream_any(os, ax);
- });
- if (show_values && rank > 0) {
- tabular_ostream_wrapper<OStream, (BOOST_HISTOGRAM_DETAIL_AXES_LIMIT + 1)> tos(os);
- for (auto&& v : indexed(h, coverage::all)) {
- tos.row();
- for (auto i : v.indices()) tos << std::right << i;
- ostream_value(tos, *v);
- }
- tos.complete();
- const int w_item = std::accumulate(tos.begin(), tos.end(), 0) + 4 + h.rank();
- const int nrow = std::max(1, 65 / w_item);
- int irow = 0;
- for (auto&& v : indexed(h, coverage::all)) {
- os << (irow == 0 ? "\n (" : " (");
- tos.row();
- iaxis = 0;
- for (auto i : v.indices()) {
- tos << std::right << i;
- os << (++iaxis == h.rank() ? "):" : " ");
- }
- os << ' ';
- ostream_value(tos, *v);
- ++irow;
- if (nrow > 0 && irow == nrow) irow = 0;
- }
- os << '\n';
- }
- os << ')';
- }
- } // namespace detail
- #ifndef BOOST_HISTOGRAM_DOXYGEN_INVOKED
- template <class CharT, class Traits, class A, class S>
- std::basic_ostream<CharT, Traits>& operator<<(std::basic_ostream<CharT, Traits>& os,
- const histogram<A, S>& h) {
- // save fmt
- const auto flags = os.flags();
- os.flags(std::ios::dec | std::ios::left);
- const auto w = static_cast<int>(os.width());
- os.width(0);
- using value_type = typename histogram<A, S>::value_type;
- // must be non-const to avoid a msvc warning about possible use of if constexpr
- bool show_ascii = std::is_convertible<value_type, double>::value && h.rank() == 1;
- if (show_ascii) {
- detail::ostream(os, h, false);
- detail::ascii_plot(os, h, w, std::is_convertible<value_type, double>{});
- } else {
- detail::ostream(os, h);
- }
- // restore fmt
- os.flags(flags);
- return os;
- }
- } // namespace histogram
- } // namespace boost
- #endif // BOOST_HISTOGRAM_DOXYGEN_INVOKED
- #endif
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