/usr/include/gnuplot-iostream.h is in libgnuplot-iostream-dev 0~20130604.gitdd47c7a-1.
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/*
Copyright (c) 2013 Daniel Stahlke
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.
*/
/*
TODO:
What version of boost is currently required?
Callbacks via 'bind' function (needs 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 2
#ifndef GNUPLOT_ENABLE_CXX11
# define GNUPLOT_ENABLE_CXX11 (__cplusplus >= 201103)
#endif
// C system includes
#include <cstdio>
#ifdef GNUPLOT_ENABLE_PTY
# include <termios.h>
# include <unistd.h>
# include <pty.h>
#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 <cstdlib>
#include <cmath>
#if GNUPLOT_ENABLE_CXX11
# include <tuple>
#endif
#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>
#include <boost/mpl/bool.hpp>
//#include <boost/type_traits.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
// This is used because VS2008 doesn't have stdint.h.
#include <boost/cstdint.hpp>
// 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
#ifdef BOOST_STATIC_ASSERT_MSG
# define MY_STATIC_ASSERT_MSG(cond, msg) BOOST_STATIC_ASSERT_MSG((cond), msg)
#else
# define MY_STATIC_ASSERT_MSG(cond, msg) BOOST_STATIC_ASSERT((cond))
#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
# include <windows.h>
# 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
#ifdef _WIN32
# define GNUPLOT_ISNAN _isnan
#else
// cppreference.com says std::isnan is only for C++11. However, this seems to work on Linux
// and I am assuming that if isnan exists in math.h then std::isnan exists in cmath.
# define GNUPLOT_ISNAN std::isnan
#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"
// On Windows, gnuplot echos commands to stderr. So we forward its stderr to the bit bucket.
// Unfortunately, this means you will miss out on legitimate error messages.
# define GNUPLOT_DEFAULT_COMMAND "gnuplot -persist 2> NUL"
#else
# define GNUPLOT_DEFAULT_COMMAND "gnuplot -persist"
#endif
#endif
/// }}}1
namespace gnuplotio {
/// {{{1 Basic traits helpers
// This can be specialized as needed, in order to not use the STL interfaces for specific
// classes.
template <typename T>
struct dont_treat_as_stl_container {
typedef boost::mpl::bool_<false> type;
};
BOOST_MPL_HAS_XXX_TRAIT_DEF(value_type)
BOOST_MPL_HAS_XXX_TRAIT_DEF(const_iterator)
template <typename T>
struct is_like_stl_container {
typedef boost::mpl::and_<
typename has_value_type<T>::type,
typename has_const_iterator<T>::type,
boost::mpl::not_<dont_treat_as_stl_container<T> >
> type;
static const bool value = type::value;
};
template <typename T>
struct is_boost_tuple_nulltype {
static const bool value = false;
typedef boost::mpl::bool_<value> type;
};
template <>
struct is_boost_tuple_nulltype<boost::tuples::null_type> {
static const bool value = true;
typedef boost::mpl::bool_<value> type;
};
BOOST_MPL_HAS_XXX_TRAIT_DEF(head_type)
BOOST_MPL_HAS_XXX_TRAIT_DEF(tail_type)
template <typename T>
struct is_boost_tuple {
typedef boost::mpl::and_<
typename has_head_type<T>::type,
typename has_tail_type<T>::type
> type;
static const bool value = type::value;
};
// More fine-grained, but doesn't compile!
//template <typename T>
//struct is_boost_tuple {
// typedef boost::mpl::and_<
// typename boost::is_class<T>::type,
// typename boost::mpl::and_<
// typename has_head_type<T>::type,
// typename boost::mpl::and_<
// typename has_tail_type<T>::type,
// typename boost::mpl::or_<
// typename is_boost_tuple_nulltype<typename T::tail_type>::type,
// typename is_boost_tuple<typename T::tail_type>::type
// >::type
// >::type
// >::type
// > type;
//};
//
//template <>
//struct is_boost_tuple<boost::tuples::null_type> {
// typedef boost::mpl::bool_<false> type;
//};
/// }}}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:
GnuplotTmpfile() :
file(boost::filesystem::unique_path(
boost::filesystem::temp_directory_path() /
"tmp-gnuplot-%%%%-%%%%-%%%%-%%%%"))
{ }
private:
// noncopyable
GnuplotTmpfile(const GnuplotTmpfile &);
const GnuplotTmpfile& operator=(const GnuplotTmpfile &);
public:
~GnuplotTmpfile() {
// 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;
};
#endif // GNUPLOT_USE_TMPFILE
/// }}}1
/// {{{1 Feedback helper classes
// Used for reading stuff sent from gnuplot via gnuplot's "print" function.
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(NULL),
master_fd(-1),
slave_fd(-1)
{
// adapted from http://www.gnuplot.info/files/gpReadMouseTest.c
if(0 > openpty(&master_fd, &slave_fd, NULL, NULL, NULL)) {
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(NULL)
// {
// if(debug_messages) {
// std::cerr << "feedback_fn=" << filename() << std::endl;
// }
// fh = fopen(filename().c_str(), "a");
// }
//
// ~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
/// {{{2 Basic entry datatypes
template <typename T, typename Enable=void>
struct TextSender {
static void send(std::ostream &stream, const T &v) {
stream << v;
}
};
template <typename T, typename Enable=void>
struct BinarySender {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "BinarySender class not specialized for this type");
// This is here to avoid further compilation errors, beyond what the assert prints.
static void send(std::ostream &stream, const T &v);
};
// This is a BinarySender implementation that just sends directly from memory.
template <typename T>
struct FlatBinarySender {
static void send(std::ostream &stream, const T &v) {
stream.write(reinterpret_cast<const char *>(&v), sizeof(T));
}
};
template <typename T, typename Enable=void>
struct BinfmtSender {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "BinfmtSender class not specialized for this type");
// This is here to avoid further compilation errors, beyond what the assert prints.
static void send(std::ostream &);
};
// Types from boost/cstdint.hpp are used because VS2008 doesn't have stdint.h.
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<boost:: int8_t> { static void send(std::ostream &stream) { stream << "%int8"; } };
template<> struct BinfmtSender<boost:: uint8_t> { static void send(std::ostream &stream) { stream << "%uint8"; } };
template<> struct BinfmtSender<boost:: int16_t> { static void send(std::ostream &stream) { stream << "%int16"; } };
template<> struct BinfmtSender<boost::uint16_t> { static void send(std::ostream &stream) { stream << "%uint16"; } };
template<> struct BinfmtSender<boost:: int32_t> { static void send(std::ostream &stream) { stream << "%int32"; } };
template<> struct BinfmtSender<boost::uint32_t> { static void send(std::ostream &stream) { stream << "%uint32"; } };
template<> struct BinfmtSender<boost:: int64_t> { static void send(std::ostream &stream) { stream << "%int64"; } };
template<> struct BinfmtSender<boost::uint64_t> { static void send(std::ostream &stream) { stream << "%uint64"; } };
template<> struct BinarySender< float> : public FlatBinarySender< float> { };
template<> struct BinarySender<double> : public FlatBinarySender<double> { };
template<> struct BinarySender<boost:: int8_t> : public FlatBinarySender<boost:: int8_t> { };
template<> struct BinarySender<boost:: uint8_t> : public FlatBinarySender<boost:: uint8_t> { };
template<> struct BinarySender<boost:: int16_t> : public FlatBinarySender<boost:: int16_t> { };
template<> struct BinarySender<boost::uint16_t> : public FlatBinarySender<boost::uint16_t> { };
template<> struct BinarySender<boost:: int32_t> : public FlatBinarySender<boost:: int32_t> { };
template<> struct BinarySender<boost::uint32_t> : public FlatBinarySender<boost::uint32_t> { };
template<> struct BinarySender<boost:: int64_t> : public FlatBinarySender<boost:: int64_t> { };
template<> struct BinarySender<boost::uint64_t> : public FlatBinarySender<boost::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 << 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(GNUPLOT_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 boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
boost::mpl::not_<is_boost_tuple_nulltype<typename T::tail_type> >
>
>::type
> {
static void send(std::ostream &stream, const T &v) {
TextSender<typename T::head_type>::send(stream, v.get_head());
stream << " ";
TextSender<typename T::tail_type>::send(stream, v.get_tail());
}
};
template <typename T>
struct TextSender<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
is_boost_tuple_nulltype<typename T::tail_type>
>
>::type
> {
static void send(std::ostream &stream, const T &v) {
TextSender<typename T::head_type>::send(stream, v.get_head());
}
};
template <typename T>
struct BinfmtSender<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
boost::mpl::not_<is_boost_tuple_nulltype<typename T::tail_type> >
>
>::type
> {
static void send(std::ostream &stream) {
BinfmtSender<typename T::head_type>::send(stream);
stream << " ";
BinfmtSender<typename T::tail_type>::send(stream);
}
};
template <typename T>
struct BinfmtSender<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
is_boost_tuple_nulltype<typename T::tail_type>
>
>::type
> {
static void send(std::ostream &stream) {
BinfmtSender<typename T::head_type>::send(stream);
}
};
template <typename T>
struct BinarySender<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
boost::mpl::not_<is_boost_tuple_nulltype<typename T::tail_type> >
>
>::type
> {
static void send(std::ostream &stream, const T &v) {
BinarySender<typename T::head_type>::send(stream, v.get_head());
BinarySender<typename T::tail_type>::send(stream, v.get_tail());
}
};
template <typename T>
struct BinarySender<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
is_boost_tuple_nulltype<typename T::tail_type>
>
>::type
> {
static void send(std::ostream &stream, const T &v) {
BinarySender<typename T::head_type>::send(stream, v.get_head());
}
};
/// }}}2
/// {{{2 std::tuple support
#if GNUPLOT_ENABLE_CXX11
// 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>());
}
};
#endif // GNUPLOT_ENABLE_CXX11
/// }}}2
/// }}}1
/// {{{1 New array writer stuff
/// {{{2 ArrayTraits and Range classes
/// {{{3 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;
};
// Error messages involving this stem from calling deref instead of deref_subiter for a nested
// container.
struct Error_InappropriateDeref { };
// The unspecialized version of this class gives traits for things that are *not* arrays.
template <typename T, typename Enable=void>
class ArrayTraits {
public:
typedef Error_WasNotContainer value_type;
typedef Error_WasNotContainer range_type;
static const bool is_container = false;
static const bool allow_colwrap = false;
static const size_t depth = 0;
static range_type get_range(const T &) {
MY_STATIC_ASSERT_MSG((sizeof(T)==0), "argument was not a container");
throw std::logic_error("static assert should have been triggered by this point");
}
};
template <typename V>
class ArrayTraitsDefaults {
public:
typedef V value_type;
static const bool is_container = true;
static const bool allow_colwrap = true;
static const size_t depth = ArrayTraits<V>::depth + 1;
};
// This handles reference types, such as are given with boost::tie.
// It also allows for instance "ArrayTraits<T[N]>" to match "ArrayTraits<T (&) [N]>".
// I think this is okay to do... The alternative is to use remove_reference all over the place.
template <typename T>
class ArrayTraits<T&> : public ArrayTraits<T> { };
// FIXME - is this okay?
// It supports gp.send1d(std::forward_as_tuple(x, std::move(y)));
#if GNUPLOT_ENABLE_CXX11
template <typename T>
class ArrayTraits<T&&> : public ArrayTraits<T> { };
#endif
/// }}}3
/// {{{3 STL container support
template <typename TI, typename TV>
class IteratorRange {
public:
IteratorRange() { }
IteratorRange(const TI &_it, const TI &_end) : it(_it), end(_end) { }
static const bool is_container = ArrayTraits<TV>::is_container;
typedef typename boost::mpl::if_c<is_container,
Error_InappropriateDeref, TV>::type value_type;
typedef typename ArrayTraits<TV>::range_type subiter_type;
bool is_end() const { return it == end; }
void inc() { ++it; }
value_type deref() const {
MY_STATIC_ASSERT_MSG((sizeof(TV) && !is_container),
"deref called on nested container");
return *it;
}
subiter_type deref_subiter() const {
MY_STATIC_ASSERT_MSG(sizeof(TV) && (is_container),
"deref_iter called on non-nested container");
return ArrayTraits<TV>::get_range(*it);
}
private:
TI it, end;
};
template <typename T>
class ArrayTraits<T,
typename boost::enable_if<is_like_stl_container<T> >::type
> : 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());
}
};
/// }}}3
/// {{{3 C style array support
template <typename T, size_t N>
class ArrayTraits<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);
}
};
/// }}}3
/// {{{3 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 const 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 ArrayTraits<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 const bool is_container = ArrayTraits<T>::is_container && ArrayTraits<U>::is_container;
// Don't allow colwrap since it's already wrapped.
static const bool allow_colwrap = 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 const size_t l_depth = ArrayTraits<T>::depth;
static const size_t r_depth = ArrayTraits<U>::depth;
static const 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)
);
}
};
/// }}}3
/// {{{3 boost::tuple support
template <typename T>
class ArrayTraits<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
boost::mpl::not_<is_boost_tuple_nulltype<typename T::tail_type> >
>
>::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 ArrayTraits<T,
typename boost::enable_if<
boost::mpl::and_<
is_boost_tuple<T>,
is_boost_tuple_nulltype<typename T::tail_type>
>
>::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());
}
};
/// }}}3
/// {{{3 std::tuple support
#if GNUPLOT_ENABLE_CXX11
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))
);
}
};
template <typename Tuple>
struct StdTupUnwinder<Tuple, 0> {
typedef typename std::tuple_element<0, Tuple>::type type;
static typename ArrayTraits<type>::range_type get_range(const Tuple &arg) {
return ArrayTraits<type>::get_range(std::get<0>(arg));
}
};
template <typename... Args>
class ArrayTraits<std::tuple<Args...> > :
public ArrayTraits<typename StdTupUnwinder<std::tuple<Args...>, sizeof...(Args)-1>::type>
{
typedef std::tuple<Args...> Tuple;
typedef ArrayTraits<typename StdTupUnwinder<Tuple, sizeof...(Args)-1>::type> parent;
public:
static typename parent::range_type get_range(const Tuple &arg) {
return StdTupUnwinder<std::tuple<Args...>, sizeof...(Args)-1>::get_range(arg);
}
};
#endif // GNUPLOT_ENABLE_CXX11
/// }}}3
/// {{{3 Support column unwrap of container
template <typename RT>
class VecOfRange {
template <typename T, typename PrintMode>
friend void deref_and_print(std::ostream &, const VecOfRange<T> &, PrintMode);
public:
VecOfRange() { }
explicit VecOfRange(const std::vector<RT> &_rvec) : rvec(_rvec) { }
static const bool is_container = RT::is_container;
// Don't allow colwrap since it's already wrapped.
static const bool allow_colwrap = false;
typedef std::vector<typename RT::value_type> value_type;
typedef VecOfRange<typename RT::subiter_type> subiter_type;
bool is_end() const {
if(rvec.empty()) return true;
bool ret = rvec[0].is_end();
for(size_t i=1; i<rvec.size(); i++) {
if(ret != rvec[i].is_end()) {
throw std::length_error("columns were different lengths");
}
}
return ret;
}
void inc() {
for(size_t i=0; i<rvec.size(); i++) {
rvec[i].inc();
}
}
value_type deref() const {
value_type ret(rvec.size());
for(size_t i=0; i<rvec.size(); i++) {
ret[i] = rvec[i].deref();
}
return ret;
}
subiter_type deref_subiter() const {
std::vector<typename RT::subiter_type> subvec(rvec.size());
for(size_t i=0; i<rvec.size(); i++) {
subvec[i] = rvec[i].deref_subiter();
}
return subiter_type(subvec);
}
private:
std::vector<RT> rvec;
};
template <typename T>
VecOfRange<typename ArrayTraits<T>::range_type::subiter_type>
get_columns_range(const T &arg) {
typedef typename ArrayTraits<T>::range_type::subiter_type U;
std::vector<U> rvec;
typename ArrayTraits<T>::range_type outer = ArrayTraits<T>::get_range(arg);
while(!outer.is_end()) {
rvec.push_back(outer.deref_subiter());
outer.inc();
}
VecOfRange<U> ret(rvec);
return ret;
}
/// }}}3
/// }}}2
/// {{{2 Array printing functions
static bool debug_array_print = 0;
void set_debug_array_print(bool v) { debug_array_print = v; }
struct ModeText { static const bool is_text = 1; static const bool is_binfmt = 0; static const bool is_size = 0; };
struct ModeBinary { static const bool is_text = 0; static const bool is_binfmt = 0; static const bool is_size = 0; };
struct ModeBinfmt { static const bool is_text = 0; static const bool is_binfmt = 1; static const bool is_size = 0; };
struct ModeSize { static const bool is_text = 0; static const bool is_binfmt = 0; static const bool is_size = 1; };
struct ColunwrapNo { };
struct ColunwrapYes { };
struct Mode1D { static std::string class_name() { return "Mode1D" ; } };
struct Mode2D { static std::string class_name() { return "Mode2D" ; } };
struct Mode1DUnwrap { static std::string class_name() { return "Mode1DUnwrap"; } };
struct Mode2DUnwrap { static std::string class_name() { return "Mode2DUnwrap"; } };
struct ModeAuto { static std::string class_name() { return "ModeAuto" ; } };
/// {{{3 ModeAutoDecoder
template <typename T, typename Enable=void>
struct ModeAutoDecoder { };
template <typename T>
struct ModeAutoDecoder<T,
typename boost::enable_if_c<
(ArrayTraits<T>::depth == 1)
>::type>
{
typedef Mode1D mode;
};
template <typename T>
struct ModeAutoDecoder<T,
typename boost::enable_if_c<
(ArrayTraits<T>::depth == 2) &&
!ArrayTraits<T>::allow_colwrap
>::type>
{
typedef Mode2D mode;
};
template <typename T>
struct ModeAutoDecoder<T,
typename boost::enable_if_c<
(ArrayTraits<T>::depth == 2) &&
ArrayTraits<T>::allow_colwrap
>::type>
{
typedef Mode1DUnwrap mode;
};
template <typename T>
struct ModeAutoDecoder<T,
typename boost::enable_if_c<
(ArrayTraits<T>::depth > 2) &&
ArrayTraits<T>::allow_colwrap
>::type>
{
typedef Mode2DUnwrap mode;
};
template <typename T>
struct ModeAutoDecoder<T,
typename boost::enable_if_c<
(ArrayTraits<T>::depth > 2) &&
!ArrayTraits<T>::allow_colwrap
>::type>
{
typedef Mode2D mode;
};
/// }}}3
template <typename T>
size_t get_range_size(const T &arg) {
// FIXME - not the fastest way. Implement a size() method for range.
size_t ret = 0;
for(T i=arg; !i.is_end(); i.inc()) ++ret;
return ret;
}
template <typename T>
void send_scalar(std::ostream &stream, const T &arg, ModeText) {
TextSender<T>::send(stream, arg);
}
template <typename T>
void send_scalar(std::ostream &stream, const T &arg, ModeBinary) {
BinarySender<T>::send(stream, arg);
}
template <typename T>
void send_scalar(std::ostream &stream, const T &, ModeBinfmt) {
BinfmtSender<T>::send(stream);
}
template <typename T, typename PrintMode>
typename boost::disable_if_c<T::is_container>::type
deref_and_print(std::ostream &stream, const T &arg, PrintMode) {
const typename T::value_type &v = arg.deref();
send_scalar(stream, v, PrintMode());
}
template <typename T, typename PrintMode>
typename boost::enable_if_c<T::is_container>::type
deref_and_print(std::ostream &stream, const T &arg, PrintMode) {
if(debug_array_print && PrintMode::is_text) stream << "{";
typename T::subiter_type subrange = arg.deref_subiter();
bool first = true;
while(!subrange.is_end()) {
if(!first && PrintMode::is_text) stream << " ";
first = false;
deref_and_print(stream, subrange, PrintMode());
subrange.inc();
}
if(debug_array_print && PrintMode::is_text) stream << "}";
}
template <typename T, typename U, typename PrintMode>
void deref_and_print(std::ostream &stream, const PairOfRange<T, U> &arg, PrintMode) {
deref_and_print(stream, arg.l, PrintMode());
if(PrintMode::is_text) stream << " ";
deref_and_print(stream, arg.r, PrintMode());
}
template <typename T, typename PrintMode>
void deref_and_print(std::ostream &stream, const VecOfRange<T> &arg, PrintMode) {
for(size_t i=0; i<arg.rvec.size(); i++) {
if(i && PrintMode::is_text) stream << " ";
deref_and_print(stream, arg.rvec[i], PrintMode());
}
}
template <size_t Depth, typename T, typename PrintMode>
typename boost::enable_if_c<(Depth==1) && !PrintMode::is_size>::type
print_block(std::ostream &stream, T &arg, PrintMode) {
while(!arg.is_end()) {
//print_entry(arg.deref());
deref_and_print(stream, arg, PrintMode());
if(PrintMode::is_binfmt) break;
if(PrintMode::is_text) stream << std::endl;
arg.inc();
}
}
template <size_t Depth, typename T, typename PrintMode>
typename boost::enable_if_c<(Depth>1) && !PrintMode::is_size>::type
print_block(std::ostream &stream, T &arg, PrintMode) {
bool first = true;
while(!arg.is_end()) {
if(first) {
first = false;
} else {
if(PrintMode::is_text) stream << std::endl;
}
if(debug_array_print && PrintMode::is_text) stream << "<block>" << std::endl;
typename T::subiter_type sub = arg.deref_subiter();
print_block<Depth-1>(stream, sub, PrintMode());
if(PrintMode::is_binfmt) break;
arg.inc();
}
}
template <size_t Depth, typename T, typename PrintMode>
typename boost::enable_if_c<(Depth==1) && PrintMode::is_size>::type
print_block(std::ostream &stream, T &arg, PrintMode) {
stream << get_range_size(arg);
}
template <size_t Depth, typename T, typename PrintMode>
typename boost::enable_if_c<(Depth>1) && PrintMode::is_size>::type
print_block(std::ostream &stream, T &arg, PrintMode) {
// It seems that size for two dimensional arrays needs the fastest varying index first,
// contrary to intuition. The gnuplot documentation is not too clear on this point.
typename T::subiter_type sub = arg.deref_subiter();
print_block<Depth-1>(stream, sub, PrintMode());
stream << "," << get_range_size(arg);
}
template <size_t Depth, typename T, typename PrintMode>
void generic_sender_level2(std::ostream &stream, T &arg, PrintMode) {
print_block<Depth>(stream, arg, PrintMode());
}
template <size_t Depth, typename T, typename PrintMode>
void generic_sender_level1(std::ostream &stream, const T &arg, ColunwrapNo, PrintMode) {
MY_STATIC_ASSERT_MSG(ArrayTraits<T>::depth >= Depth, "container not deep enough");
typename ArrayTraits<T>::range_type range = ArrayTraits<T>::get_range(arg);
generic_sender_level2<Depth>(stream, range, PrintMode());
}
template <size_t Depth, typename T, typename PrintMode>
void generic_sender_level1(std::ostream &stream, const T &arg, ColunwrapYes, PrintMode) {
MY_STATIC_ASSERT_MSG(ArrayTraits<T>::depth >= Depth+1, "container not deep enough");
VecOfRange<typename ArrayTraits<T>::range_type::subiter_type> cols = get_columns_range(arg);
generic_sender_level2<Depth>(stream, cols, PrintMode());
}
template <typename T, typename PrintMode>
void generic_sender_level0(std::ostream &stream, const T &arg, Mode1D, PrintMode) {
generic_sender_level1<1>(stream, arg, ColunwrapNo(), PrintMode());
}
template <typename T, typename PrintMode>
void generic_sender_level0(std::ostream &stream, const T &arg, Mode2D, PrintMode) {
generic_sender_level1<2>(stream, arg, ColunwrapNo(), PrintMode());
}
template <typename T, typename PrintMode>
void generic_sender_level0(std::ostream &stream, const T &arg, Mode1DUnwrap, PrintMode) {
generic_sender_level1<1>(stream, arg, ColunwrapYes(), PrintMode());
}
template <typename T, typename PrintMode>
void generic_sender_level0(std::ostream &stream, const T &arg, Mode2DUnwrap, PrintMode) {
generic_sender_level1<2>(stream, arg, ColunwrapYes(), PrintMode());
}
template <typename T, typename PrintMode>
void generic_sender_level0(std::ostream &stream, const T &arg, ModeAuto, PrintMode) {
generic_sender_level0(stream, arg, typename ModeAutoDecoder<T>::mode(), PrintMode());
}
/// }}}2
/// }}}1
/// {{{1 Main class
class Gnuplot : public boost::iostreams::stream<
boost::iostreams::file_descriptor_sink>
{
private:
static std::string get_default_cmd() {
char *from_env = std::getenv("GNUPLOT_IOSTREAM_CMD");
if(from_env && from_env[0]) {
return from_env;
} else {
return GNUPLOT_DEFAULT_COMMAND;
}
}
static FILE *open_cmdline(const std::string &in) {
std::string cmd = in.empty() ? get_default_cmd() : in;
assert(!cmd.empty());
if(cmd[0] == '>') {
std::string fn = cmd.substr(1);
FILE *ret = fopen(fn.c_str(), "w");
if(!ret) throw(std::ios_base::failure("cannot open file "+fn));
return ret;
} else {
FILE *ret = GNUPLOT_POPEN(cmd.c_str(), "w");
if(!ret) throw(std::ios_base::failure("cannot open pipe "+cmd));
return ret;
}
}
public:
explicit Gnuplot(const std::string &cmd="") :
boost::iostreams::stream<boost::iostreams::file_descriptor_sink>(
GNUPLOT_FILENO(pout = open_cmdline(cmd)),
#if BOOST_VERSION >= 104400
boost::iostreams::never_close_handle
#else
false
#endif
),
is_pipe(true),
feedback(NULL),
tmp_files(),
debug_messages(false)
{
*this << std::scientific << std::setprecision(18); // refer <iomanip>
}
explicit Gnuplot(FILE *fh) :
boost::iostreams::stream<boost::iostreams::file_descriptor_sink>(
GNUPLOT_FILENO(pout = fh),
#if BOOST_VERSION >= 104400
boost::iostreams::never_close_handle
#else
false
#endif
),
is_pipe(false),
feedback(NULL),
tmp_files(),
debug_messages(false)
{
*this << std::scientific << std::setprecision(18); // refer <iomanip>
}
private:
// noncopyable
Gnuplot(const Gnuplot &);
const Gnuplot& operator=(const Gnuplot &);
public:
~Gnuplot() {
if(debug_messages) {
std::cerr << "ending gnuplot session" << std::endl;
}
// FIXME - boost's close method calls close() on the file descriptor, but
// we need to use pclose instead. For now, just skip calling boost's close
// and use flush just in case.
do_flush();
// Wish boost had a pclose method...
//close();
if(is_pipe) {
if(GNUPLOT_PCLOSE(pout)) {
std::cerr << "pclose returned error" << std::endl;
}
} else {
if(fclose(pout)) {
std::cerr << "fclose returned error" << std::endl;
}
}
delete feedback;
}
void clearTmpfiles() {
// destructors will cause deletion
tmp_files.clear();
}
private:
void do_flush() {
*this << std::flush;
fflush(pout);
}
std::string make_tmpfile() {
#ifdef GNUPLOT_USE_TMPFILE
boost::shared_ptr<GnuplotTmpfile> tmp_file(new GnuplotTmpfile());
// 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();
#else
throw(std::logic_error("no filename given and temporary files not enabled"));
#endif // GNUPLOT_USE_TMPFILE
}
public:
template <typename T, typename ArrayMode>
Gnuplot &send(const T &arg, ArrayMode) {
generic_sender_level0(*this, arg, ArrayMode(), ModeText());
*this << "e" << std::endl; // gnuplot's "end of array" token
do_flush(); // probably not really needed, but doesn't hurt
return *this;
}
template <typename T, typename ArrayMode>
Gnuplot &sendBinary(const T &arg, ArrayMode) {
generic_sender_level0(*this, arg, ArrayMode(), ModeBinary());
do_flush(); // probably not really needed, but doesn't hurt
return *this;
}
template <typename T, typename ArrayMode>
std::string binfmt(const T &arg, const std::string &arr_or_rec, ArrayMode) {
std::ostringstream tmp;
tmp << " format='";
generic_sender_level0(tmp, arg, ArrayMode(), ModeBinfmt());
assert((arr_or_rec == "array") || (arr_or_rec == "record"));
tmp << "' " << arr_or_rec << "=(";
generic_sender_level0(tmp, arg, ArrayMode(), ModeSize());
tmp << ")";
tmp << " ";
return tmp.str();
}
// NOTE: empty filename makes temporary file
template <typename T, typename ArrayMode>
std::string file(const T &arg, std::string filename, ArrayMode) {
if(filename.empty()) filename = make_tmpfile();
std::fstream tmp_stream(filename.c_str(), std::fstream::out);
generic_sender_level0(tmp_stream, arg, ArrayMode(), ModeText());
tmp_stream.close();
std::ostringstream cmdline;
// FIXME - hopefully filename doesn't contain quotes or such...
cmdline << " '" << filename << "' ";
return cmdline.str();
}
// NOTE: empty filename makes temporary file
template <typename T, typename ArrayMode>
std::string binaryFile(const T &arg, std::string filename, const std::string &arr_or_rec, ArrayMode) {
if(filename.empty()) filename = make_tmpfile();
std::fstream tmp_stream(filename.c_str(), std::fstream::out | std::fstream::binary);
generic_sender_level0(tmp_stream, arg, ArrayMode(), ModeBinary());
tmp_stream.close();
std::ostringstream cmdline;
// FIXME - hopefully filename doesn't contain quotes or such...
cmdline << " '" << filename << "' binary" << binfmt(arg, arr_or_rec, ArrayMode());
return cmdline.str();
}
template <typename T> Gnuplot GNUPLOT_DEPRECATE("use send1d or send2d")
&send(const T &arg) { return send(arg, ModeAuto()); }
template <typename T> std::string GNUPLOT_DEPRECATE("use binfmt1d or binfmt2d")
binfmt(const T &arg, const std::string &arr_or_rec="array")
{ return binfmt(arg, arr_or_rec, ModeAuto()); }
template <typename T> Gnuplot GNUPLOT_DEPRECATE("use sendBinary1d or sendBinary2d")
&sendBinary(const T &arg) { return sendBinary(arg, ModeAuto()); }
template <typename T> std::string GNUPLOT_DEPRECATE("use file1d or file2d")
file(const T &arg, const std::string &filename="")
{ return file(arg, filename, ModeAuto()); }
template <typename T> std::string GNUPLOT_DEPRECATE("use binArr1d or binArr2d")
binaryFile(const T &arg, const std::string &filename="", const std::string &arr_or_rec="array")
{ return binaryFile(arg, filename, arr_or_rec, ModeAuto()); }
template <typename T> Gnuplot &send1d (const T &arg) { return send(arg, Mode1D ()); }
template <typename T> Gnuplot &send2d (const T &arg) { return send(arg, Mode2D ()); }
template <typename T> Gnuplot &send1d_colmajor(const T &arg) { return send(arg, Mode1DUnwrap()); }
template <typename T> Gnuplot &send2d_colmajor(const T &arg) { return send(arg, Mode2DUnwrap()); }
template <typename T> Gnuplot &sendBinary1d (const T &arg) { return sendBinary(arg, Mode1D ()); }
template <typename T> Gnuplot &sendBinary2d (const T &arg) { return sendBinary(arg, Mode2D ()); }
template <typename T> Gnuplot &sendBinary1d_colmajor(const T &arg) { return sendBinary(arg, Mode1DUnwrap()); }
template <typename T> Gnuplot &sendBinary2d_colmajor(const T &arg) { return sendBinary(arg, Mode2DUnwrap()); }
template <typename T> std::string file1d (const T &arg, const std::string &filename="") { return file(arg, filename, Mode1D ()); }
template <typename T> std::string file2d (const T &arg, const std::string &filename="") { return file(arg, filename, Mode2D ()); }
template <typename T> std::string file1d_colmajor(const T &arg, const std::string &filename="") { return file(arg, filename, Mode1DUnwrap()); }
template <typename T> std::string file2d_colmajor(const T &arg, const std::string &filename="") { return file(arg, filename, Mode2DUnwrap()); }
template <typename T> std::string binFmt1d (const T &arg, const std::string &arr_or_rec) { return binfmt(arg, arr_or_rec, Mode1D ()); }
template <typename T> std::string binFmt2d (const T &arg, const std::string &arr_or_rec) { return binfmt(arg, arr_or_rec, Mode2D ()); }
template <typename T> std::string binFmt1d_colmajor(const T &arg, const std::string &arr_or_rec) { return binfmt(arg, arr_or_rec, Mode1DUnwrap()); }
template <typename T> std::string binFmt2d_colmajor(const T &arg, const std::string &arr_or_rec) { return binfmt(arg, arr_or_rec, Mode2DUnwrap()); }
template <typename T> std::string binFile1d (const T &arg, const std::string &arr_or_rec, const std::string &filename="") { return binaryFile(arg, filename, arr_or_rec, Mode1D ()); }
template <typename T> std::string binFile2d (const T &arg, const std::string &arr_or_rec, const std::string &filename="") { return binaryFile(arg, filename, arr_or_rec, Mode2D ()); }
template <typename T> std::string binFile1d_colmajor(const T &arg, const std::string &arr_or_rec, const std::string &filename="") { return binaryFile(arg, filename, arr_or_rec, Mode1DUnwrap()); }
template <typename T> std::string binFile2d_colmajor(const T &arg, const std::string &arr_or_rec, const std::string &filename="") { return binaryFile(arg, filename, arr_or_rec, Mode2DUnwrap()); }
#ifdef GNUPLOT_ENABLE_FEEDBACK
public:
// Input variables are set to the mouse position and button. If the gnuplot
// window is closed, button -1 is returned. The msg parameter is the prompt
// that is printed to the console.
void getMouse(
double &mx, double &my, int &mb,
std::string msg="Click Mouse!"
) {
allocFeedback();
*this << "set mouse" << std::endl;
*this << "pause mouse \"" << msg << "\\n\"" << std::endl;
*this << "if (exists(\"MOUSE_X\")) print MOUSE_X, MOUSE_Y, MOUSE_BUTTON; else print 0, 0, -1;" << std::endl;
if(debug_messages) {
std::cerr << "begin scanf" << std::endl;
}
if(3 != fscanf(feedback->handle(), "%50lf %50lf %50d", &mx, &my, &mb)) {
throw std::runtime_error("could not parse reply");
}
if(debug_messages) {
std::cerr << "end scanf" << std::endl;
}
}
private:
void allocFeedback() {
if(!feedback) {
#ifdef GNUPLOT_ENABLE_PTY
feedback = new GnuplotFeedbackPty(debug_messages);
//#elif defined GNUPLOT_USE_TMPFILE
//// Currently this doesn't work since fscanf doesn't block (need something like "tail -f")
// feedback = new GnuplotFeedbackTmpfile(debug_messages);
#endif
*this << "set print \"" << feedback->filename() << "\"" << std::endl;
}
}
#endif // GNUPLOT_ENABLE_FEEDBACK
private:
FILE *pout;
bool is_pipe;
GnuplotFeedback *feedback;
#ifdef GNUPLOT_USE_TMPFILE
std::vector<boost::shared_ptr<GnuplotTmpfile> > tmp_files;
#else
// just a placeholder
std::vector<int> tmp_files;
#endif // GNUPLOT_USE_TMPFILE
public:
bool debug_messages;
};
/// }}}1
} // namespace gnuplotio
// The first version of this library didn't use namespaces, and now this must be here forever
// for reverse compatibility:
using gnuplotio::Gnuplot;
#endif // GNUPLOT_IOSTREAM_H
/// {{{1 Support for 3rd party array libraries
/// {{{2 Blitz support
// This is outside of the main header guard so that it will be compiled when people do
// something like this:
// #include "gnuplot-iostream.h"
// #include <blitz/array.h>
// #include "gnuplot-iostream.h"
// Note that it has its own header guard to avoid double inclusion.
#ifdef BZ_BLITZ_H
#ifndef GNUPLOT_BLITZ_SUPPORT_LOADED
#define GNUPLOT_BLITZ_SUPPORT_LOADED
namespace gnuplotio {
template <typename T, int N>
struct BinfmtSender<blitz::TinyVector<T, N> > {
static void send(std::ostream &stream) {
for(int i=0; i<N; i++) {
BinfmtSender<T>::send(stream);
}
}
};
template <typename T, int N>
struct TextSender<blitz::TinyVector<T, N> > {
static void send(std::ostream &stream, const blitz::TinyVector<T, N> &v) {
for(int i=0; i<N; i++) {
if(i) stream << " ";
TextSender<T>::send(stream, v[i]);
}
}
};
template <typename T, int N>
struct BinarySender<blitz::TinyVector<T, N> > {
static void send(std::ostream &stream, const blitz::TinyVector<T, N> &v) {
for(int i=0; i<N; i++) {
BinarySender<T>::send(stream, v[i]);
}
}
};
class Error_WasBlitzPartialSlice { };
template <typename T, int ArrayDim, int SliceDim>
class BlitzIterator {
public:
BlitzIterator() : p(NULL) { }
BlitzIterator(
const blitz::Array<T, ArrayDim> *_p,
const blitz::TinyVector<int, ArrayDim> _idx
) : p(_p), idx(_idx) { }
typedef Error_WasBlitzPartialSlice value_type;
typedef BlitzIterator<T, ArrayDim, SliceDim-1> subiter_type;
static const bool is_container = true;
// FIXME - handle one-based arrays
bool is_end() const {
return idx[ArrayDim-SliceDim] == p->shape()[ArrayDim-SliceDim];
}
void inc() {
++idx[ArrayDim-SliceDim];
}
value_type deref() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "cannot deref a blitz slice");
throw std::logic_error("static assert should have been triggered by this point");
}
subiter_type deref_subiter() const {
return BlitzIterator<T, ArrayDim, SliceDim-1>(p, idx);
}
private:
const blitz::Array<T, ArrayDim> *p;
blitz::TinyVector<int, ArrayDim> idx;
};
template <typename T, int ArrayDim>
class BlitzIterator<T, ArrayDim, 1> {
public:
BlitzIterator() : p(NULL) { }
BlitzIterator(
const blitz::Array<T, ArrayDim> *_p,
const blitz::TinyVector<int, ArrayDim> _idx
) : p(_p), idx(_idx) { }
typedef T value_type;
typedef Error_WasNotContainer subiter_type;
static const bool is_container = false;
// FIXME - handle one-based arrays
bool is_end() const {
return idx[ArrayDim-1] == p->shape()[ArrayDim-1];
}
void inc() {
++idx[ArrayDim-1];
}
value_type deref() const {
return (*p)(idx);
}
subiter_type deref_subiter() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "argument was not a container");
throw std::logic_error("static assert should have been triggered by this point");
}
private:
const blitz::Array<T, ArrayDim> *p;
blitz::TinyVector<int, ArrayDim> idx;
};
template <typename T, int ArrayDim>
class ArrayTraits<blitz::Array<T, ArrayDim> > : public ArrayTraitsDefaults<T> {
public:
static const bool allow_colwrap = false;
static const size_t depth = ArrayTraits<T>::depth + ArrayDim;
typedef BlitzIterator<T, ArrayDim, ArrayDim> range_type;
static range_type get_range(const blitz::Array<T, ArrayDim> &arg) {
blitz::TinyVector<int, ArrayDim> start_idx;
start_idx = 0;
return range_type(&arg, start_idx);
}
};
} // namespace gnuplotio
#endif // GNUPLOT_BLITZ_SUPPORT_LOADED
#endif // BZ_BLITZ_H
/// }}}2
/// {{{2 Armadillo support
// This is outside of the main header guard so that it will be compiled when people do
// something like this:
// #include "gnuplot-iostream.h"
// #include <armadillo>
// #include "gnuplot-iostream.h"
// Note that it has its own header guard to avoid double inclusion.
#ifdef ARMA_INCLUDES
#ifndef GNUPLOT_ARMADILLO_SUPPORT_LOADED
#define GNUPLOT_ARMADILLO_SUPPORT_LOADED
namespace gnuplotio {
template <typename T> struct dont_treat_as_stl_container<arma::Row <T> > { typedef boost::mpl::bool_<true> type; };
template <typename T> struct dont_treat_as_stl_container<arma::Col <T> > { typedef boost::mpl::bool_<true> type; };
template <typename T> struct dont_treat_as_stl_container<arma::Mat <T> > { typedef boost::mpl::bool_<true> type; };
template <typename T> struct dont_treat_as_stl_container<arma::Cube <T> > { typedef boost::mpl::bool_<true> type; };
template <typename T> struct dont_treat_as_stl_container<arma::field<T> > { typedef boost::mpl::bool_<true> type; };
/// {{{3 Cube
template <typename T>
class ArrayTraits<arma::Cube<T> > : public ArrayTraitsDefaults<T> {
class SliceRange {
public:
SliceRange() : p(NULL), col(0), slice(0) { }
explicit SliceRange(const arma::Cube<T> *_p, size_t _row, size_t _col) :
p(_p), row(_row), col(_col), slice(0) { }
typedef T value_type;
typedef Error_WasNotContainer subiter_type;
static const bool is_container = false;
bool is_end() const { return slice == p->n_slices; }
void inc() { ++slice; }
value_type deref() const {
return (*p)(row, col, slice);
}
subiter_type deref_subiter() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "argument was not a container");
throw std::logic_error("static assert should have been triggered by this point");
}
private:
const arma::Cube<T> *p;
size_t row, col, slice;
};
class ColRange {
public:
ColRange() : p(NULL), row(0), col(0) { }
explicit ColRange(const arma::Cube<T> *_p, size_t _row) :
p(_p), row(_row), col(0) { }
typedef T value_type;
typedef SliceRange subiter_type;
static const bool is_container = true;
bool is_end() const { return col == p->n_cols; }
void inc() { ++col; }
value_type deref() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "can't call deref on an armadillo cube col");
throw std::logic_error("static assert should have been triggered by this point");
}
subiter_type deref_subiter() const {
return subiter_type(p, row, col);
}
private:
const arma::Cube<T> *p;
size_t row, col;
};
class RowRange {
public:
RowRange() : p(NULL), row(0) { }
explicit RowRange(const arma::Cube<T> *_p) : p(_p), row(0) { }
typedef T value_type;
typedef ColRange subiter_type;
static const bool is_container = true;
bool is_end() const { return row == p->n_rows; }
void inc() { ++row; }
value_type deref() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "can't call deref on an armadillo cube row");
throw std::logic_error("static assert should have been triggered by this point");
}
subiter_type deref_subiter() const {
return subiter_type(p, row);
}
private:
const arma::Cube<T> *p;
size_t row;
};
public:
static const bool allow_colwrap = false;
static const size_t depth = ArrayTraits<T>::depth + 3;
typedef RowRange range_type;
static range_type get_range(const arma::Cube<T> &arg) {
//std::cout << arg.n_elem << "," << arg.n_rows << "," << arg.n_cols << std::endl;
return range_type(&arg);
}
};
/// }}}3
/// {{{3 Mat and Field
template <typename RF, typename T>
class ArrayTraits_ArmaMatOrField : public ArrayTraitsDefaults<T> {
class ColRange {
public:
ColRange() : p(NULL), row(0), col(0) { }
explicit ColRange(const RF *_p, size_t _row) :
p(_p), row(_row), col(0) { }
typedef T value_type;
typedef Error_WasNotContainer subiter_type;
static const bool is_container = false;
bool is_end() const { return col == p->n_cols; }
void inc() { ++col; }
value_type deref() const {
return (*p)(row, col);
}
subiter_type deref_subiter() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "argument was not a container");
throw std::logic_error("static assert should have been triggered by this point");
}
private:
const RF *p;
size_t row, col;
};
class RowRange {
public:
RowRange() : p(NULL), row(0) { }
explicit RowRange(const RF *_p) : p(_p), row(0) { }
typedef T value_type;
typedef ColRange subiter_type;
static const bool is_container = true;
bool is_end() const { return row == p->n_rows; }
void inc() { ++row; }
value_type deref() const {
MY_STATIC_ASSERT_MSG((sizeof(T) == 0), "can't call deref on an armadillo matrix row");
throw std::logic_error("static assert should have been triggered by this point");
}
subiter_type deref_subiter() const {
return subiter_type(p, row);
}
private:
const RF *p;
size_t row;
};
public:
static const bool allow_colwrap = false;
static const size_t depth = ArrayTraits<T>::depth + 2;
typedef RowRange range_type;
static range_type get_range(const RF &arg) {
//std::cout << arg.n_elem << "," << arg.n_rows << "," << arg.n_cols << std::endl;
return range_type(&arg);
}
};
template <typename T>
class ArrayTraits<arma::field<T> > : public ArrayTraits_ArmaMatOrField<arma::field<T>, T> { };
template <typename T>
class ArrayTraits<arma::Mat<T> > : public ArrayTraits_ArmaMatOrField<arma::Mat<T>, T> { };
/// }}}3
/// {{{3 Row
template <typename T>
class ArrayTraits<arma::Row<T> > : public ArrayTraitsDefaults<T> {
public:
static const bool allow_colwrap = false;
typedef IteratorRange<typename arma::Row<T>::const_iterator, T> range_type;
static range_type get_range(const arma::Row<T> &arg) {
//std::cout << arg.n_elem << "," << arg.n_rows << "," << arg.n_cols << std::endl;
return range_type(arg.begin(), arg.end());
}
};
/// }}}3
/// {{{3 Col
template <typename T>
class ArrayTraits<arma::Col<T> > : public ArrayTraitsDefaults<T> {
public:
static const bool allow_colwrap = false;
typedef IteratorRange<typename arma::Col<T>::const_iterator, T> range_type;
static range_type get_range(const arma::Col<T> &arg) {
//std::cout << arg.n_elem << "," << arg.n_rows << "," << arg.n_cols << std::endl;
return range_type(arg.begin(), arg.end());
}
};
/// }}}3
} // namespace gnuplotio
#endif // GNUPLOT_ARMADILLO_SUPPORT_LOADED
#endif // ARMA_INCLUDES
/// }}}2
/// }}}1
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