Mercurial > octave
view libinterp/dldfcn/__init_gnuplot__.cc @ 27919:1891570abac8
update Octave Project Developers copyright for the new year
In files that have the "Octave Project Developers" copyright notice,
update for 2020.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Mon, 06 Jan 2020 22:29:51 -0500 |
| parents | b442ec6dda5c |
| children | bd51beb6205e |
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/* Copyright (C) 2007-2020 The Octave Project Developers See the file COPYRIGHT.md in the top-level directory of this distribution or <https://octave.org/COPYRIGHT.html/>. This file is part of Octave. Octave is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <https://www.gnu.org/licenses/>. */ /* To initialize: graphics_toolkit ("gnuplot"); plot (randn (1e3, 1)); */ #if defined (HAVE_CONFIG_H) # include "config.h" #endif #include <string> #include "dMatrix.h" #include "file-stat.h" #include "oct-env.h" #include "build-env.h" #include "builtin-defun-decls.h" #include "defun-dld.h" #include "error.h" #include "graphics.h" #include "ov.h" #include "ovl.h" #include "parse.h" #include "utils.h" #include "variables.h" // PKG_ADD: if (__have_gnuplot__ ()) register_graphics_toolkit ("gnuplot"); endif class gnuplot_graphics_toolkit : public octave::base_graphics_toolkit { public: gnuplot_graphics_toolkit (octave::interpreter& interp) : octave::base_graphics_toolkit ("gnuplot"), m_interpreter (interp) { } ~gnuplot_graphics_toolkit (void) = default; bool is_valid (void) const { return true; } bool initialize (const graphics_object& go) { return go.isa ("figure"); } void finalize (const graphics_object& go) { if (go.isa ("figure")) { const figure::properties& props = dynamic_cast<const figure::properties&> (go.get_properties ()); send_quit (props.get___plot_stream__ ()); } } void update (const graphics_object& go, int id) { if (go.isa ("figure")) { graphics_object obj (go); figure::properties& props = dynamic_cast<figure::properties&> (obj.get_properties ()); switch (id) { case base_properties::ID_VISIBLE: if (! props.is_visible ()) { send_quit (props.get___plot_stream__ ()); props.set___plot_stream__ (Matrix ()); props.set_graphicssmoothing (false); } break; } } } void redraw_figure (const graphics_object& go) const { static bool drawnow_executing = false; // Prevent recursion if (! drawnow_executing) { octave::unwind_protect frame; frame.protect_var (drawnow_executing); drawnow_executing = true; octave_value_list args; args(0) = go.get_handle ().as_octave_value (); octave::feval ("__gnuplot_drawnow__", args); } } void print_figure (const graphics_object& go, const std::string& term, const std::string& file, const std::string& debug_file) const { octave_value_list args; if (! debug_file.empty ()) args(3) = debug_file; args(2) = file; args(1) = term; args(0) = go.get_handle ().as_octave_value (); octave::feval ("__gnuplot_drawnow__", args); } Matrix get_canvas_size (const graphics_handle&) const { Matrix sz (1, 2, 0.0); return sz; } double get_screen_resolution (void) const { return 72.0; } Matrix get_screen_size (void) const { return Matrix (1, 2, 0.0); } void close (void) { if (m_interpreter.mislocked ("__init_gnuplot__")) m_interpreter.munlock ("__init_gnuplot__"); } private: void send_quit (const octave_value& pstream) const { if (! pstream.isempty ()) { octave_value_list args; Matrix fids = pstream.matrix_value (); Ffputs (m_interpreter, ovl (fids(0), "\nquit;\n")); Ffflush (m_interpreter, ovl (fids(0))); Fpclose (m_interpreter, ovl (fids(0))); if (fids.numel () > 1) { Fpclose (m_interpreter, ovl (fids(1))); if (fids.numel () > 2) Fwaitpid (ovl (fids(2))); } } } octave::interpreter& m_interpreter; }; static bool have_gnuplot_binary (void) { const std::string exeext = octave::build_env::EXEEXT; const std::string path = octave::sys::env::getenv ("PATH"); bool retval = false; try { octave_value_list tmp = octave::feval ("gnuplot_binary", octave_value_list ()); if (tmp(0).is_string () && ! tmp(0).isempty ()) { std::string gnuplot_binary = tmp(0).string_value (); string_vector args (gnuplot_binary); std::string gnuplot_path = octave::search_path_for_file (path, args); octave::sys::file_stat fs (gnuplot_path); if (! fs.exists () && ! exeext.empty ()) { args[0] += exeext; gnuplot_path = octave::search_path_for_file (path, args); fs = octave::sys::file_stat (gnuplot_path); } retval = fs.exists (); } } catch (octave::execution_exception&) { } return retval; } // Initialize the gnuplot graphics toolkit. DEFMETHOD_DLD (__init_gnuplot__, interp, , , doc: /* -*- texinfo -*- @deftypefn {} {} __init_gnuplot__ () Undocumented internal function. @end deftypefn */) { if (! have_gnuplot_binary ()) error ("__init_gnuplot__: the gnuplot program is not available, see 'gnuplot_binary'"); else if (! interp.mislocked ("__init_gnuplot__")) { octave::gtk_manager& gtk_mgr = interp.get_gtk_manager (); octave::graphics_toolkit tk (new gnuplot_graphics_toolkit (interp)); gtk_mgr.load_toolkit (tk); interp.mlock (); } return octave_value_list (); } DEFUN_DLD (__have_gnuplot__, , , doc: /* -*- texinfo -*- @deftypefn {} {@var{gnuplot_available} =} __have_gnuplot__ () Undocumented internal function. @end deftypefn */) { return ovl (have_gnuplot_binary ()); } /* ## No test needed for internal helper function. %!assert (1) */