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gnuplot-iostream.h
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gnuplot-iostream.h
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// vim:foldmethod=marker
/*
Copyright (c) 2020 Daniel Stahlke ([email protected])
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
/* A C++ interface to gnuplot.
* Web page: http://www.stahlke.org/dan/gnuplot-iostream
* Documentation: https://github.com/dstahlke/gnuplot-iostream/wiki
*
* The whole library consists of this monolithic header file, for ease of installation (the
* Makefile and *.cc files are only for examples and tests).
*
* TODO:
* Callbacks via gnuplot's 'bind' function. This would allow triggering user functions when
* keys are pressed in the gnuplot window. However, it would require a PTY reader thread.
* Maybe temporary files read in a thread can replace PTY stuff.
*/
#ifndef GNUPLOT_IOSTREAM_H
#define GNUPLOT_IOSTREAM_H
// {{{1 Includes and defines
#define GNUPLOT_IOSTREAM_VERSION 3
// C system includes
#include <cstdio>
#ifdef GNUPLOT_ENABLE_PTY
# include <termios.h>
# include <unistd.h>
#ifdef __APPLE__
# include <util.h>
#else
# include <pty.h>
#endif
#endif // GNUPLOT_ENABLE_PTY
// C++ system includes
#include <fstream>
#include <iostream>
#include <sstream>
#include <stdexcept>
#include <string>
#include <utility>
#include <iomanip>
#include <vector>
#include <complex>
#include <cstdint>
#include <cstdlib>
#include <cmath>
#include <tuple>
#include <type_traits>
#include <boost/iostreams/device/file_descriptor.hpp>
#include <boost/iostreams/stream.hpp>
#include <boost/version.hpp>
#include <boost/utility.hpp>
#include <boost/tuple/tuple.hpp>
// This is the version of boost which has v3 of the filesystem libraries by default.
#if BOOST_VERSION >= 104600
# define GNUPLOT_USE_TMPFILE
# include <boost/filesystem.hpp>
#endif // BOOST_VERSION
// Note: this is here for reverse compatibility. The new way to enable blitz support is to
// just include the gnuplot-iostream.h header after you include the blitz header (likewise for
// armadillo).
#ifdef GNUPLOT_ENABLE_BLITZ
# include <blitz/array.h>
#endif
// If this is defined, warn about use of deprecated functions.
#ifdef GNUPLOT_DEPRECATE_WARN
# ifdef __GNUC__
# define GNUPLOT_DEPRECATE(msg) __attribute__ ((deprecated(msg)))
# elif defined(_MSC_VER)
# define GNUPLOT_DEPRECATE(msg) __declspec(deprecated(msg))
# else
# define GNUPLOT_DEPRECATE(msg)
# endif
#else
# define GNUPLOT_DEPRECATE(msg)
#endif
// Patch for Windows by Damien Loison
#ifdef _WIN32
# define GNUPLOT_PCLOSE _pclose
# define GNUPLOT_POPEN _popen
# define GNUPLOT_FILENO _fileno
#else
# define GNUPLOT_PCLOSE pclose
# define GNUPLOT_POPEN popen
# define GNUPLOT_FILENO fileno
#endif
// MSVC gives a warning saying that fopen and getenv are not secure. But they are secure.
// Unfortunately their replacement functions are not simple drop-in replacements. The best
// solution is to just temporarily disable this warning whenever fopen or getenv is used.
// http://stackoverflow.com/a/4805353/1048959
#if defined(_MSC_VER) && _MSC_VER >= 1400
# define GNUPLOT_MSVC_WARNING_4996_PUSH \
__pragma(warning(push)) \
__pragma(warning(disable:4996))
# define GNUPLOT_MSVC_WARNING_4996_POP \
__pragma(warning(pop))
#else
# define GNUPLOT_MSVC_WARNING_4996_PUSH
# define GNUPLOT_MSVC_WARNING_4996_POP
#endif
#ifndef GNUPLOT_DEFAULT_COMMAND
#ifdef _WIN32
// "pgnuplot" is considered deprecated according to the Internet. It may be faster. It
// doesn't seem to handle binary data though.
//# define GNUPLOT_DEFAULT_COMMAND "pgnuplot -persist"
// The default install path for gnuplot is written here. This way the user doesn't have to add
// anything to their %PATH% environment variable.
# define GNUPLOT_DEFAULT_COMMAND "\"C:\\Program Files\\gnuplot\\bin\\gnuplot.exe\" -persist"
#else
# define GNUPLOT_DEFAULT_COMMAND "gnuplot -persist"
#endif
#endif
// }}}1
namespace gnuplotio {
// {{{1 Basic traits helpers
//
// The mechanisms constructed in this section enable us to detect what sort of datatype has
// been passed to a function.
// This can be specialized as needed, in order to not use the STL interfaces for specific
// classes.
template <typename T, typename=void>
static constexpr bool dont_treat_as_stl_container = false;
template <typename T, typename=void>
static constexpr bool is_like_stl_container = false;
template <typename T>
static constexpr bool is_like_stl_container<T, std::void_t<
decltype(std::declval<T>().begin()),
decltype(std::declval<T>().end()),
typename T::value_type
>> = !dont_treat_as_stl_container<T>;
static_assert( is_like_stl_container<std::vector<int>>);
static_assert(!is_like_stl_container<int>);
template <typename T, typename=void>
static constexpr bool is_like_stl_container2 = false;
template <typename T>
static constexpr bool is_like_stl_container2<T, std::void_t<
decltype(begin(std::declval<T>())),
decltype(end (std::declval<T>()))
>> = !is_like_stl_container<T> && !dont_treat_as_stl_container<T>;
template <typename T>
static constexpr bool is_boost_tuple_nulltype =
std::is_same_v<T, boost::tuples::null_type>;
static_assert(is_boost_tuple_nulltype<boost::tuples::null_type>);
template <typename T, typename=void>
static constexpr bool is_boost_tuple = false;
template <typename T>
static constexpr bool is_boost_tuple<T, std::void_t<
typename T::head_type,
typename T::tail_type
>> = is_boost_tuple<typename T::tail_type> || is_boost_tuple_nulltype<typename T::tail_type>;
static_assert( is_boost_tuple<boost::tuple<int>>);
static_assert( is_boost_tuple<boost::tuple<int, int>>);
static_assert(!is_boost_tuple<std::tuple<int>>);
static_assert(!is_boost_tuple<std::tuple<int, int>>);
// }}}1
// {{{1 Tmpfile helper class
#ifdef GNUPLOT_USE_TMPFILE
// RAII temporary file. File is removed when this object goes out of scope.
class GnuplotTmpfile {
public:
explicit GnuplotTmpfile(bool _debug_messages) :
file(boost::filesystem::unique_path(
boost::filesystem::temp_directory_path() /
"tmp-gnuplot-%%%%-%%%%-%%%%-%%%%")),
debug_messages(_debug_messages)
{
if(debug_messages) {
std::cerr << "create tmpfile " << file << std::endl;
}
}
private:
// noncopyable
GnuplotTmpfile(const GnuplotTmpfile &);
const GnuplotTmpfile& operator=(const GnuplotTmpfile &);
public:
~GnuplotTmpfile() {
if(debug_messages) {
std::cerr << "delete tmpfile " << file << std::endl;
}
// it is never good to throw exceptions from a destructor
try {
remove(file);
} catch(const std::exception &) {
std::cerr << "Failed to remove temporary file " << file << std::endl;
}
}
public:
boost::filesystem::path file;
bool debug_messages;
};
class GnuplotTmpfileCollection {
public:
std::string make_tmpfile() {
const bool debug_messages = false;
std::shared_ptr<GnuplotTmpfile> tmp_file(new GnuplotTmpfile(debug_messages));
// The file will be removed once the pointer is removed from the
// tmp_files container.
tmp_files.push_back(tmp_file);
return tmp_file->file.string();
}
void clear() {
tmp_files.clear();
}
private:
std::vector<std::shared_ptr<GnuplotTmpfile>> tmp_files;
};
#else // GNUPLOT_USE_TMPFILE
class GnuplotTmpfileCollection {
public:
std::string make_tmpfile() {
throw std::logic_error("no filename given and temporary files not enabled");
}
void clear() { }
};
#endif // GNUPLOT_USE_TMPFILE
// }}}1
// {{{1 Feedback helper classes
//
// Used for reading stuff sent from gnuplot via gnuplot's "print" function.
//
// For example, this is used for capturing mouse clicks in the gnuplot window. There are two
// implementations, only the first of which is complete. The first implementation allocates a
// PTY (pseudo terminal) which is written to by gnuplot and read by us. This only works in
// Linux. The second implementation creates a temporary file which is written to by gnuplot
// and read by us. However, this doesn't currently work since fscanf doesn't block. It would
// be possible to get this working using a more complicated mechanism (select or threads) but I
// haven't had the need for it.
class GnuplotFeedback {
public:
GnuplotFeedback() { }
virtual ~GnuplotFeedback() { }
virtual std::string filename() const = 0;
virtual FILE *handle() const = 0;
private:
// noncopyable
GnuplotFeedback(const GnuplotFeedback &);
const GnuplotFeedback& operator=(const GnuplotFeedback &);
};
#ifdef GNUPLOT_ENABLE_PTY
#define GNUPLOT_ENABLE_FEEDBACK
class GnuplotFeedbackPty : public GnuplotFeedback {
public:
explicit GnuplotFeedbackPty(bool debug_messages) :
pty_fn(),
pty_fh(nullptr),
master_fd(-1),
slave_fd(-1)
{
// adapted from http://www.gnuplot.info/files/gpReadMouseTest.c
if(0 > openpty(&master_fd, &slave_fd, nullptr, nullptr, nullptr)) {
perror("openpty");
throw std::runtime_error("openpty failed");
}
char pty_fn_buf[1024];
if(ttyname_r(slave_fd, pty_fn_buf, 1024)) {
perror("ttyname_r");
throw std::runtime_error("ttyname failed");
}
pty_fn = std::string(pty_fn_buf);
if(debug_messages) {
std::cerr << "feedback_fn=" << pty_fn << std::endl;
}
// disable echo
struct termios tios;
if(tcgetattr(slave_fd, &tios) < 0) {
perror("tcgetattr");
throw std::runtime_error("tcgetattr failed");
}
tios.c_lflag &= ~(ECHO | ECHONL);
if(tcsetattr(slave_fd, TCSAFLUSH, &tios) < 0) {
perror("tcsetattr");
throw std::runtime_error("tcsetattr failed");
}
pty_fh = fdopen(master_fd, "r");
if(!pty_fh) {
throw std::runtime_error("fdopen failed");
}
}
private:
// noncopyable
GnuplotFeedbackPty(const GnuplotFeedbackPty &);
const GnuplotFeedbackPty& operator=(const GnuplotFeedbackPty &);
public:
~GnuplotFeedbackPty() {
if(pty_fh) fclose(pty_fh);
if(master_fd > 0) ::close(master_fd);
if(slave_fd > 0) ::close(slave_fd);
}
std::string filename() const {
return pty_fn;
}
FILE *handle() const {
return pty_fh;
}
private:
std::string pty_fn;
FILE *pty_fh;
int master_fd, slave_fd;
};
//#elif defined GNUPLOT_USE_TMPFILE
//// Currently this doesn't work since fscanf doesn't block (need something like "tail -f")
//#define GNUPLOT_ENABLE_FEEDBACK
//class GnuplotFeedbackTmpfile : public GnuplotFeedback {
//public:
// explicit GnuplotFeedbackTmpfile(bool debug_messages) :
// tmp_file(),
// fh(nullptr)
// {
// if(debug_messages) {
// std::cerr << "feedback_fn=" << filename() << std::endl;
// }
// GNUPLOT_MSVC_WARNING_4996_PUSH
// fh = std::fopen(filename().c_str(), "a");
// GNUPLOT_MSVC_WARNING_4996_POP
// }
//
// ~GnuplotFeedbackTmpfile() {
// fclose(fh);
// }
//
//private:
// // noncopyable
// GnuplotFeedbackTmpfile(const GnuplotFeedbackTmpfile &);
// const GnuplotFeedbackTmpfile& operator=(const GnuplotFeedbackTmpfile &);
//
//public:
// std::string filename() const {
// return tmp_file.file.string();
// }
//
// FILE *handle() const {
// return fh;
// }
//
//private:
// GnuplotTmpfile tmp_file;
// FILE *fh;
//};
#endif // GNUPLOT_ENABLE_PTY, GNUPLOT_USE_TMPFILE
// }}}1
// {{{1 Traits and printers for entry datatypes
//
// This section contains the mechanisms for sending scalar and tuple data to gnuplot. Pairs
// and tuples are sent by appealing to the senders defined for their component scalar types.
// Senders for arrays are defined in a later section.
//
// There are three classes which need to be specialized for each supported datatype:
// 1. TextSender to send data as text. The default is to just send using the ostream's `<<`
// operator.
// 2. BinarySender to send data as binary, in a format which gnuplot can understand. There is
// no default implementation (unimplemented types raise a compile time error), however
// inheriting from FlatBinarySender will send the data literally as it is stored in memory.
// This suffices for most of the standard built-in types (e.g. uint32_t or double).
// 3. BinfmtSender sends a description of the data format to gnuplot (e.g. `%uint32`). Type
// `show datafile binary datasizes` in gnuplot to see a list of supported formats.
// {{{2 Basic entry datatypes
// Default TextSender, sends data using `<<` operator.
template <typename T, typename Enable=void>
struct TextSender {
static void send(std::ostream &stream, const T &v) {
stream << v;
}
};
class BinarySenderNotImplemented : public std::logic_error {
public:
explicit BinarySenderNotImplemented(const std::string &w) : std::logic_error(w) { }
};
// Default BinarySender, raises a compile time error.
template <typename T, typename Enable=void>
struct BinarySender {
static void send(std::ostream &, const T &) {
throw BinarySenderNotImplemented("BinarySender not implemented for this type");
}
};
// This is a BinarySender implementation that just sends directly from memory. Data types
// which can be sent this way can have their BinarySender specialization inherit from this.
template <typename T>
struct FlatBinarySender {
static void send(std::ostream &stream, const T &v) {
stream.write(reinterpret_cast<const char *>(&v), sizeof(T));
}
};
// Default BinfmtSender, raises a compile time error.
template <typename T, typename Enable=void>
struct BinfmtSender {
static void send(std::ostream &) {
throw BinarySenderNotImplemented("BinfmtSender not implemented for this type");
}
};
// BinfmtSender implementations for basic data types supported by gnuplot.
template<> struct BinfmtSender< float> { static void send(std::ostream &stream) { stream << "%float"; } };
template<> struct BinfmtSender<double> { static void send(std::ostream &stream) { stream << "%double"; } };
template<> struct BinfmtSender< int8_t> { static void send(std::ostream &stream) { stream << "%int8"; } };
template<> struct BinfmtSender< uint8_t> { static void send(std::ostream &stream) { stream << "%uint8"; } };
template<> struct BinfmtSender< int16_t> { static void send(std::ostream &stream) { stream << "%int16"; } };
template<> struct BinfmtSender<uint16_t> { static void send(std::ostream &stream) { stream << "%uint16"; } };
template<> struct BinfmtSender< int32_t> { static void send(std::ostream &stream) { stream << "%int32"; } };
template<> struct BinfmtSender<uint32_t> { static void send(std::ostream &stream) { stream << "%uint32"; } };
template<> struct BinfmtSender< int64_t> { static void send(std::ostream &stream) { stream << "%int64"; } };
template<> struct BinfmtSender<uint64_t> { static void send(std::ostream &stream) { stream << "%uint64"; } };
// BinarySender implementations for basic data types supported by gnuplot. These types can
// just be sent as stored in memory, so all these senders inherit from FlatBinarySender.
template<> struct BinarySender< float> : public FlatBinarySender< float> { };
template<> struct BinarySender<double> : public FlatBinarySender<double> { };
template<> struct BinarySender< int8_t> : public FlatBinarySender< int8_t> { };
template<> struct BinarySender< uint8_t> : public FlatBinarySender< uint8_t> { };
template<> struct BinarySender< int16_t> : public FlatBinarySender< int16_t> { };
template<> struct BinarySender<uint16_t> : public FlatBinarySender<uint16_t> { };
template<> struct BinarySender< int32_t> : public FlatBinarySender< int32_t> { };
template<> struct BinarySender<uint32_t> : public FlatBinarySender<uint32_t> { };
template<> struct BinarySender< int64_t> : public FlatBinarySender< int64_t> { };
template<> struct BinarySender<uint64_t> : public FlatBinarySender<uint64_t> { };
// Make char types print as integers, not as characters.
template <typename T>
struct CastIntTextSender {
static void send(std::ostream &stream, const T &v) {
stream << static_cast<int>(v);
}
};
template<> struct TextSender< char> : public CastIntTextSender< char> { };
template<> struct TextSender< signed char> : public CastIntTextSender< signed char> { };
template<> struct TextSender< unsigned char> : public CastIntTextSender< unsigned char> { };
// Make sure that the same not-a-number string is printed on all platforms.
template <typename T>
struct FloatTextSender {
static void send(std::ostream &stream, const T &v) {
if(std::isnan(v)) { stream << "nan"; } else { stream << v; }
}
};
template<> struct TextSender< float> : FloatTextSender< float> { };
template<> struct TextSender< double> : FloatTextSender< double> { };
template<> struct TextSender<long double> : FloatTextSender<long double> { };
// }}}2
// {{{2 std::pair support
template <typename T, typename U>
struct TextSender<std::pair<T, U>> {
static void send(std::ostream &stream, const std::pair<T, U> &v) {
TextSender<T>::send(stream, v.first);
stream << " ";
TextSender<U>::send(stream, v.second);
}
};
template <typename T, typename U>
struct BinfmtSender<std::pair<T, U>> {
static void send(std::ostream &stream) {
BinfmtSender<T>::send(stream);
BinfmtSender<U>::send(stream);
}
};
template <typename T, typename U>
struct BinarySender<std::pair<T, U>> {
static void send(std::ostream &stream, const std::pair<T, U> &v) {
BinarySender<T>::send(stream, v.first);
BinarySender<U>::send(stream, v.second);
}
};
// }}}2
// {{{2 std::complex support
template <typename T>
struct TextSender<std::complex<T>> {
static void send(std::ostream &stream, const std::complex<T> &v) {
TextSender<T>::send(stream, v.real());
stream << " ";
TextSender<T>::send(stream, v.imag());
}
};
template <typename T>
struct BinfmtSender<std::complex<T>> {
static void send(std::ostream &stream) {
BinfmtSender<T>::send(stream);
BinfmtSender<T>::send(stream);
}
};
template <typename T>
struct BinarySender<std::complex<T>> {
static void send(std::ostream &stream, const std::complex<T> &v) {
BinarySender<T>::send(stream, v.real());
BinarySender<T>::send(stream, v.imag());
}
};
// }}}2
// {{{2 boost::tuple support
template <typename T>
struct TextSender<T,
typename std::enable_if_t<is_boost_tuple<T>>
> {
static void send(std::ostream &stream, const T &v) {
TextSender<typename T::head_type>::send(stream, v.get_head());
if constexpr (!is_boost_tuple_nulltype<typename T::tail_type>) {
stream << " ";
TextSender<typename T::tail_type>::send(stream, v.get_tail());
}
}
};
template <typename T>
struct BinfmtSender<T,
typename std::enable_if_t<is_boost_tuple<T>>
> {
static void send(std::ostream &stream) {
BinfmtSender<typename T::head_type>::send(stream);
if constexpr (!is_boost_tuple_nulltype<typename T::tail_type>) {
stream << " ";
BinfmtSender<typename T::tail_type>::send(stream);
}
}
};
template <typename T>
struct BinarySender<T,
typename std::enable_if_t<is_boost_tuple<T>>
> {
static void send(std::ostream &stream, const T &v) {
BinarySender<typename T::head_type>::send(stream, v.get_head());
if constexpr (!is_boost_tuple_nulltype<typename T::tail_type>) {
BinarySender<typename T::tail_type>::send(stream, v.get_tail());
}
}
};
// }}}2
// {{{2 std::tuple support
// http://stackoverflow.com/questions/6245735/pretty-print-stdtuple
template<std::size_t> struct int_{}; // compile-time counter
template <typename Tuple, std::size_t I>
void std_tuple_formatcode_helper(std::ostream &stream, const Tuple *, int_<I>) {
std_tuple_formatcode_helper(stream, (const Tuple *)(0), int_<I-1>());
stream << " ";
BinfmtSender<typename std::tuple_element<I, Tuple>::type>::send(stream);
}
template <typename Tuple>
void std_tuple_formatcode_helper(std::ostream &stream, const Tuple *, int_<0>) {
BinfmtSender<typename std::tuple_element<0, Tuple>::type>::send(stream);
}
template <typename... Args>
struct BinfmtSender<std::tuple<Args...>> {
typedef typename std::tuple<Args...> Tuple;
static void send(std::ostream &stream) {
std_tuple_formatcode_helper(stream, (const Tuple *)(0), int_<sizeof...(Args)-1>());
}
};
template <typename Tuple, std::size_t I>
void std_tuple_textsend_helper(std::ostream &stream, const Tuple &v, int_<I>) {
std_tuple_textsend_helper(stream, v, int_<I-1>());
stream << " ";
TextSender<typename std::tuple_element<I, Tuple>::type>::send(stream, std::get<I>(v));
}
template <typename Tuple>
void std_tuple_textsend_helper(std::ostream &stream, const Tuple &v, int_<0>) {
TextSender<typename std::tuple_element<0, Tuple>::type>::send(stream, std::get<0>(v));
}
template <typename... Args>
struct TextSender<std::tuple<Args...>> {
typedef typename std::tuple<Args...> Tuple;
static void send(std::ostream &stream, const Tuple &v) {
std_tuple_textsend_helper(stream, v, int_<sizeof...(Args)-1>());
}
};
template <typename Tuple, std::size_t I>
void std_tuple_binsend_helper(std::ostream &stream, const Tuple &v, int_<I>) {
std_tuple_binsend_helper(stream, v, int_<I-1>());
BinarySender<typename std::tuple_element<I, Tuple>::type>::send(stream, std::get<I>(v));
}
template <typename Tuple>
void std_tuple_binsend_helper(std::ostream &stream, const Tuple &v, int_<0>) {
BinarySender<typename std::tuple_element<0, Tuple>::type>::send(stream, std::get<0>(v));
}
template <typename... Args>
struct BinarySender<std::tuple<Args...>> {
typedef typename std::tuple<Args...> Tuple;
static void send(std::ostream &stream, const Tuple &v) {
std_tuple_binsend_helper(stream, v, int_<sizeof...(Args)-1>());
}
};
// }}}2
// }}}1
// {{{1 ArrayTraits and Range classes
//
// This section handles sending of array data to gnuplot. It is rather complicated because of
// the diversity of storage schemes supported. For example, it treats a
// `std::pair<std::vector<T>, std::vector<U>>` in the same way as a
// `std::vector<std::pair<T, U>>`, iterating through the two arrays in lockstep, and sending
// pairs <T,U> to gnuplot as columns. In fact, any nested combination of pairs, tuples, STL
// containers, Blitz arrays, and Armadillo arrays is supported (with the caveat that, for
// instance, Blitz arrays should never be put into an STL container or you will suffer
// unpredictable results due the way Blitz handles assignment). Nested containers are
// considered to be multidimensional arrays. Although gnuplot only supports 1D and 2D arrays,
// our module is in principle not limited.
//
// The ArrayTraits class is specialized for every supported array or container type (the
// default, unspecialized, version of ArrayTraits exists only to tell you that something is
// *not* a container, via the is_container flag). ArrayTraits tells you the depth of a nested
// (or multidimensional) container, as well as the value type, and provides a specialized
// sort of iterator (a.k.a. "range"). Ranges are sort of like STL iterators, except that they
// have built-in knowledge of the end condition so you don't have to carry around both a
// begin() and an end() iterator like in STL.
//
// As an example of how this works, consider a std::pair of std::vectors. Ultimately this gets
// sent to gnuplot as two columns, so the two vectors need to be iterated in lockstep.
// The `value_type` of `std::pair<std::vector<T>, std::vector<U>>` is then `std::pair<T, U>`
// and this is what deferencing the range (iterator) gives. Internally, this range is built
// out of a pair of ranges (PairOfRange class), the `inc()` (advance to next element)
// method calls `inc()` on each of the children, and `deref()` calls `deref()` on each child
// and combines the results to return a `std::pair`. Tuples are handled as nested pairs.
//
// In addition to PairOfRange, there is also a VecOfRange class that can be used to treat the
// outermost part of a nested container as if it were a tuple. Since tuples are printed as
// columns, this is like treating a multidimensional array as if it were column-major. A
// VecOfRange is obtained by calling `get_columns_range`. This is used by, for instance,
// `send1d_colmajor`. The implementation is similar to that of PairOfRange.
//
// The range, accessed via `ArrayTraits<T>::get_range`, will be of a different class depending
// on T, and this is defined by the ArrayTraits specialization for T. It will always have
// methods `inc()` to advance to the next element and `is_end()` for checking whether one has
// advanced past the final element. For nested containers, `deref_subiter()` returns a range
// iterator for the next nesting level. When at the innermost level of nesting, `deref()`
// returns the value of the entry the iterator points to (a scalar, pair, or tuple).
// Only one of `deref()` or `deref_subiter()` will be available, depending on whether there are
// deeper levels of nesting. The typedefs `value_type` and `subiter_type` tell the return
// types of these two methods.
//
// Support for standard C++ and boost containers and tuples of containers is provided in this
// section. Support for third party packages like Blitz and Armadillo is in a later section.
// {{{2 ArrayTraits generic class and defaults
// Error messages involving this stem from treating something that was not a container as if it
// was. This is only here to allow compiliation without errors in normal cases.
struct Error_WasNotContainer {
// This is just here to make VC++ happy.
// https://connect.microsoft.com/VisualStudio/feedback/details/777612/class-template-specialization-that-compiles-in-g-but-not-visual-c
typedef void subiter_type;
};
// The unspecialized version of this class gives traits for things that are *not* arrays.
template <typename T, typename Enable=void>
class ArrayTraitsImpl {
public:
// The value type of elements after all levels of nested containers have been dereferenced.
typedef Error_WasNotContainer value_type;
// The type of the range (a.k.a. iterator) that `get_range()` returns.
typedef Error_WasNotContainer range_type;
// Tells whether T is in fact a container type.
static constexpr bool is_container = false;
// This flag supports the legacy behavior of automatically guessing whether the data should
// be treated as column major. This guessing happens when `send()` is called rather than
// `send1d()` or `send2d()`. This is deprecated, but is still supported for reverse
// compatibility.
static constexpr bool allow_auto_unwrap = false;
// The number of levels of nesting, or the dimension of multidimensional arrays.
static constexpr size_t depth = 0;
// Returns the range (iterator) for an array.
static range_type get_range(const T &) {
static_assert((sizeof(T)==0), "argument was not a container");
throw std::logic_error("static assert should have been triggered by this point");
}
};
template <typename T>
using ArrayTraits = ArrayTraitsImpl<typename std::remove_reference<typename std::remove_cv<T>::type>::type>;
// Most specializations of ArrayTraits should inherit from this (with V set to the value type).
// It sets some default values.
template <typename V>
class ArrayTraitsDefaults {
public:
typedef V value_type;
static constexpr bool is_container = true;
static constexpr bool allow_auto_unwrap = true;
static constexpr size_t depth = ArrayTraits<V>::depth + 1;
};
// }}}2
// {{{2 STL container support
template <typename TI, typename TV>
class IteratorRange {
public:
IteratorRange() { }
IteratorRange(const TI &_it, const TI &_end) : it(_it), end(_end) { }
static constexpr bool is_container = ArrayTraits<TV>::is_container;
// Error messages involving this stem from calling deref instead of deref_subiter for a nested
// container.
struct Error_InappropriateDeref { };
using value_type = typename std::conditional_t<is_container, Error_InappropriateDeref, TV>;
using subiter_type = typename ArrayTraits<TV>::range_type;
bool is_end() const { return it == end; }
void inc() { ++it; }
value_type deref() const {
static_assert(sizeof(TV) && !is_container,
"deref called on nested container");
if(is_end()) {
throw std::runtime_error("attepted to dereference past end of iterator");
}
return *it;
}
subiter_type deref_subiter() const {
static_assert(sizeof(TV) && is_container,
"deref_subiter called on non-nested container");
if(is_end()) {
throw std::runtime_error("attepted to dereference past end of iterator");
}
return ArrayTraits<TV>::get_range(*it);
}
private:
TI it, end;
};
template <typename T>
class ArrayTraitsImpl<T,
typename std::enable_if_t<is_like_stl_container<T>>
> : public ArrayTraitsDefaults<typename T::value_type> {
public:
typedef IteratorRange<typename T::const_iterator, typename T::value_type> range_type;
static range_type get_range(const T &arg) {
return range_type(arg.begin(), arg.end());
}
};
template <typename T>
class ArrayTraitsImpl<T,
typename std::enable_if_t<is_like_stl_container2<T>>
> : public ArrayTraitsDefaults<typename std::iterator_traits<decltype(begin(std::declval<T const>()))>::value_type> {
using IterType = decltype(begin(std::declval<T const>()));
using ValType = typename std::iterator_traits<IterType>::value_type;
public:
typedef IteratorRange<IterType, ValType> range_type;
static range_type get_range(const T &arg) {
return range_type(begin(arg), end(arg));
}
};
// }}}2
// {{{2 C style array support
template <typename T, size_t N>
class ArrayTraitsImpl<T[N]> : public ArrayTraitsDefaults<T> {
public:
typedef IteratorRange<const T*, T> range_type;
static range_type get_range(const T (&arg)[N]) {
return range_type(arg, arg+N);
}
};
// }}}2
// {{{2 std::pair support
template <typename RT, typename RU>
class PairOfRange {
template <typename T, typename U, typename PrintMode>
friend void deref_and_print(std::ostream &, const PairOfRange<T, U> &, PrintMode);
public:
PairOfRange() { }
PairOfRange(const RT &_l, const RU &_r) : l(_l), r(_r) { }
static constexpr bool is_container = RT::is_container && RU::is_container;
typedef std::pair<typename RT::value_type, typename RU::value_type> value_type;
typedef PairOfRange<typename RT::subiter_type, typename RU::subiter_type> subiter_type;
bool is_end() const {
bool el = l.is_end();
bool er = r.is_end();
if(el != er) {
throw std::length_error("columns were different lengths");
}
return el;
}
void inc() {
l.inc();
r.inc();
}
value_type deref() const {
return std::make_pair(l.deref(), r.deref());
}
subiter_type deref_subiter() const {
return subiter_type(l.deref_subiter(), r.deref_subiter());
}
private:
RT l;
RU r;
};
template <typename T, typename U>
class ArrayTraitsImpl<std::pair<T, U>> {
public:
typedef PairOfRange<typename ArrayTraits<T>::range_type, typename ArrayTraits<U>::range_type> range_type;
typedef std::pair<typename ArrayTraits<T>::value_type, typename ArrayTraits<U>::value_type> value_type;
static constexpr bool is_container = ArrayTraits<T>::is_container && ArrayTraits<U>::is_container;
// Don't allow colwrap since it's already wrapped.
static constexpr bool allow_auto_unwrap = false;
// It is allowed for l_depth != r_depth, for example one column could be 'double' and the
// other column could be 'vector<double>'.
static constexpr size_t l_depth = ArrayTraits<T>::depth;
static constexpr size_t r_depth = ArrayTraits<U>::depth;
static constexpr size_t depth = (l_depth < r_depth) ? l_depth : r_depth;
static range_type get_range(const std::pair<T, U> &arg) {
return range_type(
ArrayTraits<T>::get_range(arg.first),
ArrayTraits<U>::get_range(arg.second)
);
}
};
// }}}2
// {{{2 boost::tuple support
template <typename T>
class ArrayTraitsImpl<T,
typename std::enable_if_t<
is_boost_tuple<T> && !is_boost_tuple_nulltype<typename T::tail_type>
>
> : public ArrayTraits<
typename std::pair<
typename T::head_type,
typename T::tail_type
>
> {
public:
typedef typename T::head_type HT;
typedef typename T::tail_type TT;
typedef ArrayTraits<typename std::pair<HT, TT>> parent;
static typename parent::range_type get_range(const T &arg) {
return typename parent::range_type(
ArrayTraits<HT>::get_range(arg.get_head()),
ArrayTraits<TT>::get_range(arg.get_tail())
);
}
};
template <typename T>
class ArrayTraitsImpl<T,
typename std::enable_if_t<
is_boost_tuple<T> && is_boost_tuple_nulltype<typename T::tail_type>
>
> : public ArrayTraits<
typename T::head_type
> {
typedef typename T::head_type HT;
typedef ArrayTraits<HT> parent;
public:
static typename parent::range_type get_range(const T &arg) {
return parent::get_range(arg.get_head());
}
};
// }}}2
// {{{2 std::tuple support
template <typename Tuple, size_t idx>
struct StdTupUnwinder {
typedef std::pair<
typename StdTupUnwinder<Tuple, idx-1>::type,
typename std::tuple_element<idx, Tuple>::type
> type;
static typename ArrayTraits<type>::range_type get_range(const Tuple &arg) {
return typename ArrayTraits<type>::range_type(
StdTupUnwinder<Tuple, idx-1>::get_range(arg),
ArrayTraits<typename std::tuple_element<idx, Tuple>::type>::get_range(std::get<idx>(arg))
);
}
};