Mercurial > hg > octave-nkf
view libinterp/dldfcn/__init_fltk__.cc @ 19836:61cc00ebac60
move opengl printing code from __init_fltk__.cc to gl2ps-renderer.cc
* gl2ps-renderer.h, gl2ps-renderer.cc (gl2ps_print): New function.
* __init_fltk__.cc (OpenGL_fltk::print): Use it.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Thu, 29 Jan 2015 17:07:09 -0500 |
| parents | dec5b96ca298 |
| children | 0cdda69dc2b4 |
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/* Copyright (C) 2007-2013 Shai Ayal Copyright (C) 2014 Andreas Weber 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 <http://www.gnu.org/licenses/>. */ /* To initialize: graphics_toolkit ("fltk"); plot (randn (1e3, 1)); */ // PKG_ADD: if (__have_fltk__ () && have_window_system ()) register_graphics_toolkit ("fltk"); endif #ifdef HAVE_CONFIG_H #include <config.h> #endif #include "builtin-defun-decls.h" #include "defun-dld.h" #include "error.h" #include "ov-fcn-handle.h" #ifdef HAVE_FLTK #if defined (HAVE_X_WINDOWS) #include <X11/Xlib.h> #endif #include <map> #include <set> #include <sstream> #include <iostream> #ifdef WIN32 #define WIN32_LEAN_AND_MEAN #endif #include <FL/Fl.H> #include <FL/Fl_Box.H> #include <FL/Fl_Button.H> #include <FL/Fl_Choice.H> #include <FL/Fl_File_Chooser.H> #include <FL/Fl_Gl_Window.H> #include <FL/names.h> #include <FL/Fl_Menu_Bar.H> #include <FL/Fl_Menu_Button.H> #include <FL/Fl_Output.H> #include <FL/Fl_Window.H> #include <FL/fl_ask.H> #include <FL/fl_draw.H> #include <FL/gl.h> // FLTK headers may include X11/X.h which defines Complex, and that // conflicts with Octave's Complex typedef. We don't need the X11 // Complex definition in this file, so remove it before including Octave // headers which may require Octave's Complex typedef. #undef Complex #include "cmd-edit.h" #include "lo-ieee.h" #include "oct-env.h" #include "display.h" #include "file-ops.h" #include "gl2ps-renderer.h" #include "graphics.h" #include "parse.h" #include "toplev.h" #include "variables.h" #define FLTK_GRAPHICS_TOOLKIT_NAME "fltk" const char* help_text = "\ Keyboard Shortcuts\n\ a - autoscale\n\ p - pan/zoom\n\ r - rotate\n\ g - toggle grid\n\ \n\ Mouse\n\ left drag - pan\n\ mouse wheel - zoom\n\ right drag - rectangle zoom\n\ left double click - autoscale\n\ "; class OpenGL_fltk : public Fl_Gl_Window { public: OpenGL_fltk (int xx, int yy, int ww, int hh, double num) : Fl_Gl_Window (xx, yy, ww, hh, 0), number (num), renderer (), in_zoom (false), zoom_box () { // Ask for double buffering and a depth buffer. mode (FL_DEPTH | FL_DOUBLE | FL_MULTISAMPLE); } ~OpenGL_fltk (void) { } void zoom (bool z) { in_zoom = z; if (! in_zoom) hide_overlay (); } bool zoom (void) { return in_zoom; } void set_zoom_box (const Matrix& zb) { zoom_box = zb; } void print (const std::string& cmd, const std::string& term) { //std::cout << "OpenGL_fltk::print(cmd=" << cmd << ", term=" << term << ") canvas size = " << w () << "x" << h () << std::endl; gl2ps_print (gh_manager::get_object (number), cmd, term); } void resize (int xx, int yy, int ww, int hh) { Fl_Gl_Window::resize (xx, yy, ww, hh); } bool renumber (double new_number) { bool retval = false; if (number != new_number) { number = new_number; retval = true; } return retval; } private: double number; opengl_renderer renderer; bool in_zoom; // (x1,y1,x2,y2) Matrix zoom_box; void draw (void) { if (! valid ()) { glMatrixMode (GL_PROJECTION); glLoadIdentity (); glViewport (0, 0, w (), h ()); } renderer.draw (gh_manager::get_object (number)); if (zoom ()) overlay (); } void zoom_box_vertex (void) { glVertex2d (zoom_box(0), h () - zoom_box(1)); glVertex2d (zoom_box(0), h () - zoom_box(3)); glVertex2d (zoom_box(2), h () - zoom_box(3)); glVertex2d (zoom_box(2), h () - zoom_box(1)); glVertex2d (zoom_box(0), h () - zoom_box(1)); } void overlay (void) { glPushMatrix (); glMatrixMode (GL_MODELVIEW); glLoadIdentity (); glMatrixMode (GL_PROJECTION); glLoadIdentity (); gluOrtho2D (0.0, w (), 0.0, h ()); glPushAttrib (GL_DEPTH_BUFFER_BIT | GL_CURRENT_BIT); glDisable (GL_DEPTH_TEST); glBegin (GL_POLYGON); glColor4f (0.45, 0.62, 0.81, 0.1); zoom_box_vertex (); glEnd (); glBegin (GL_LINE_STRIP); glLineWidth (1.5); glColor4f (0.45, 0.62, 0.81, 0.9); zoom_box_vertex (); glEnd (); glPopAttrib (); glPopMatrix (); } int handle (int event) { switch (event) { case FL_ENTER: cursor (FL_CURSOR_CROSS); return 1; case FL_LEAVE: cursor (FL_CURSOR_DEFAULT); return 1; } return Fl_Gl_Window::handle (event); } }; void script_cb (Fl_Widget*, void* data) { static_cast<uimenu::properties*> (data)->execute_callback (); } class fltk_uimenu { public: fltk_uimenu (int xx, int yy, int ww, int hh) { menubar = new Fl_Menu_Bar (xx, yy, ww, hh); } int items_to_show (void) { //returns the number of visible menu items int len = menubar->size (); int n = 0; for (int t = 0; t < len; t++) { const Fl_Menu_Item *m = static_cast<const Fl_Menu_Item*> (& (menubar->menu ()[t])); if (m->label () && m->visible ()) n++; } return n; } void show (void) { menubar->show (); menubar->redraw (); } void hide (void) { menubar->hide (); menubar->redraw (); } bool is_visible (void) { return menubar->visible (); } int find_index_by_name (const std::string& findname) { // This function is derived from Greg Ercolano's function // int GetIndexByName(...), see: // http://seriss.com/people/erco/fltk/#Menu_ChangeLabel // He agreed via PM that it can be included in octave using GPLv3 // Kai Habel (14.10.2010) std::string menupath; for (int t = 0; t < menubar->size (); t++) { Fl_Menu_Item *m = const_cast<Fl_Menu_Item*> (&(menubar->menu ()[t])); if (m->submenu ()) { // item has submenu if (!menupath.empty ()) menupath += "/"; menupath += m->label (); if (menupath.compare (findname) == 0) return (t); } else { // End of submenu? Pop back one level. if (! m->label ()) { std::size_t idx = menupath.find_last_of ("/"); if (idx != std::string::npos) menupath.erase (idx); else menupath.clear (); continue; } // Menu item? std::string itempath = menupath; if (!itempath.empty ()) itempath += "/"; itempath += m->label (); if (itempath.compare (findname) == 0) return (t); } } return (-1); } Matrix find_uimenu_children (uimenu::properties& uimenup) const { Matrix uimenu_childs = uimenup.get_all_children (); Matrix retval = do_find_uimenu_children (uimenu_childs); return retval; } Matrix find_uimenu_children (figure::properties& figp) const { Matrix uimenu_childs = figp.get_all_children (); Matrix retval = do_find_uimenu_children (uimenu_childs); return retval; } Matrix do_find_uimenu_children (Matrix uimenu_childs) const { octave_idx_type k = 0; Matrix pos = Matrix (uimenu_childs.numel (), 1); for (octave_idx_type ii = 0; ii < uimenu_childs.numel (); ii++) { graphics_object kidgo = gh_manager::get_object (uimenu_childs (ii)); if (kidgo.valid_object () && kidgo.isa ("uimenu")) { uimenu_childs(k) = uimenu_childs(ii); pos(k++) = dynamic_cast<uimenu::properties&> (kidgo.get_properties ()).get_position (); } } uimenu_childs.resize (k, 1); pos.resize (k, 1); Matrix retval = Matrix (k, 1); // Don't know if this is the best method to sort. // Can we avoid the for loop? Array<octave_idx_type> sidx = pos.sort_rows_idx (DESCENDING); for (octave_idx_type ii = 0; ii < k; ii++) retval(ii) = uimenu_childs (sidx(ii)); return retval; } void delete_entry (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); int idx = find_index_by_name (fltk_label.c_str ()); if (idx >= 0) menubar->remove (idx); } void update_accelerator (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (menubar->find_item ( fltk_label.c_str ())); if (item) { std::string acc = uimenup.get_accelerator (); if (acc.length () > 0) { int key = FL_CTRL + acc[0]; item->shortcut (key); } } } } void update_callback (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (menubar->find_item ( fltk_label.c_str ())); if (item) { if (!uimenup.get_callback ().is_empty ()) item->callback (static_cast<Fl_Callback*> (script_cb), static_cast<void*> (&uimenup)); else item->callback (0, static_cast<void*> (0)); } } } void update_enable (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (menubar->find_item ( fltk_label.c_str ())); if (item) { if (uimenup.is_enable ()) item->activate (); else item->deactivate (); } } } void update_foregroundcolor (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (menubar->find_item ( fltk_label.c_str ())); if (item) { Matrix rgb = uimenup.get_foregroundcolor_rgb (); uchar r = static_cast<uchar> (gnulib::floor (rgb (0) * 255)); uchar g = static_cast<uchar> (gnulib::floor (rgb (1) * 255)); uchar b = static_cast<uchar> (gnulib::floor (rgb (2) * 255)); item->labelcolor (fl_rgb_color (r, g, b)); } } } void update_seperator (const uimenu::properties& uimenup) { // Matlab places the separator before the current // menu entry, while fltk places it after. So we need to find // the previous item in this menu/submenu. (Kai) std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { int itemflags = 0, idx; int curr_idx = find_index_by_name (fltk_label.c_str ()); for (idx = curr_idx - 1; idx >= 0; idx--) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (&menubar->menu () [idx]); itemflags = item->flags; if (item->label ()) break; } if (idx >= 0 && idx < menubar->size ()) { if (uimenup.is_separator ()) { if (idx >= 0 && !(itemflags & FL_SUBMENU)) menubar->mode (idx, itemflags | FL_MENU_DIVIDER); } else menubar->mode (idx, itemflags & (~FL_MENU_DIVIDER)); } } } void update_visible (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { Fl_Menu_Item* item = const_cast<Fl_Menu_Item*> (menubar->find_item (fltk_label.c_str ())); if (item) { if (uimenup.is_visible ()) item->show (); else item->hide (); } } } void add_entry (uimenu::properties& uimenup) { std::string fltk_label = uimenup.get_fltk_label (); if (!fltk_label.empty ()) { bool item_added = false; do { const Fl_Menu_Item* item = menubar->find_item (fltk_label.c_str ()); if (item) { //avoid duplicate menulabels std::size_t idx1 = fltk_label.find_last_of ("("); std::size_t idx2 = fltk_label.find_last_of (")"); int len = idx2 - idx1; int val = 1; if (len > 0) { std::string valstr = fltk_label.substr (idx1 + 1, len - 1); fltk_label.erase (idx1, len + 1); val = atoi (valstr.c_str ()); if (val > 0 && val < 99) val++; } std::ostringstream valstream; valstream << val; fltk_label += "(" + valstream.str () + ")"; } else { Matrix uimenu_ch = find_uimenu_children (uimenup); int len = uimenu_ch.numel (); int flags = 0; if (len > 0) flags = FL_SUBMENU; if (len == 0 && uimenup.is_checked ()) flags += FL_MENU_TOGGLE + FL_MENU_VALUE; menubar->add (fltk_label.c_str (), 0, 0, 0, flags); item_added = true; } } while (!item_added); uimenup.set_fltk_label (fltk_label); } } void add_to_menu (uimenu::properties& uimenup) { Matrix kids = find_uimenu_children (uimenup); int len = kids.length (); std::string fltk_label = uimenup.get_fltk_label (); add_entry (uimenup); update_foregroundcolor (uimenup); update_callback (uimenup); update_accelerator (uimenup); update_enable (uimenup); update_visible (uimenup); update_seperator (uimenup); for (octave_idx_type ii = 0; ii < len; ii++) { graphics_object kgo = gh_manager::get_object (kids (len - (ii + 1))); if (kgo.valid_object ()) { uimenu::properties& kprop = dynamic_cast<uimenu::properties&> (kgo.get_properties ()); add_to_menu (kprop); } } } void add_to_menu (figure::properties& figp) { Matrix kids = find_uimenu_children (figp); int len = kids.length (); menubar->clear (); for (octave_idx_type ii = 0; ii < len; ii++) { graphics_object kgo = gh_manager::get_object (kids (len - (ii + 1))); if (kgo.valid_object ()) { uimenu::properties& kprop = dynamic_cast<uimenu::properties&> (kgo.get_properties ()); add_to_menu (kprop); } } } template <class T_prop> void remove_from_menu (T_prop& prop) { Matrix kids; std::string type = prop.get_type (); kids = find_uimenu_children (prop); int len = kids.length (); for (octave_idx_type ii = 0; ii < len; ii++) { graphics_object kgo = gh_manager::get_object (kids (len - (ii + 1))); if (kgo.valid_object ()) { uimenu::properties kprop = dynamic_cast<uimenu::properties&> (kgo.get_properties ()); remove_from_menu (kprop); } } if (type.compare ("uimenu") == 0) delete_entry (dynamic_cast<uimenu::properties&> (prop)); else if (type.compare ("figure") == 0) menubar->clear (); } ~fltk_uimenu (void) { delete menubar; } private: // No copying! fltk_uimenu (const fltk_uimenu&); fltk_uimenu operator = (const fltk_uimenu&); Fl_Menu_Bar* menubar; }; #if defined (HAVE_X_WINDOWS) static int xerror_handler (Display *, XErrorEvent *) { return 0; } #endif class plot_window : public Fl_Window { friend class fltk_uimenu; public: plot_window (int xx, int yy, int ww, int hh, figure::properties& xfp, bool internal) : Fl_Window (xx, yy, ww, hh + menu_h + status_h + 2, "octave"), window_label (), fp (xfp), canvas (0), autoscale (0), togglegrid (0), panzoom (0), rotate (0), help (0), status (0), resize_dummy (0), ax_obj (), pos_x (0), pos_y (0) { callback (window_close, static_cast<void*> (this)); // The size of the resize_dummy box also determines the minimum window size resize_dummy = new Fl_Box (5 * status_h + 1, menu_h + 1, ww - 5 * status_h - 1, hh); // See http://fltk.org/articles.php?L415+I0+T+M1000+P1 // for how resizable works resizable (resize_dummy); // FIXME: The function below is only available in FLTK >= 1.3 // At some point support for FLTK 1.1 will be dropped in Octave. // At that point this function should be uncommented. // The current solution is to call xclass() before show() for each window. // Set WM_CLASS which allows window managers to properly group related // windows. Otherwise, the class is just "FLTK" //default_xclass ("Octave"); uimenu = new fltk_uimenu (0, 0, ww, menu_h); canvas = new OpenGL_fltk (0, menu_h, ww, hh, number ()); // The bottom toolbar is a composite of "autoscale", "togglegrid", // "panzoom", "rotate", "help", and "status". // Only "status" should be resized. int toolbar_y = menu_h + hh + 1; status = new Fl_Output (5 * status_h + 1, toolbar_y, ww - 5 * status_h - 1, status_h, ""); status->textcolor (FL_BLACK); status->color (FL_GRAY); status->textfont (FL_COURIER); status->textsize (10); status->box (FL_ENGRAVED_BOX); autoscale = new Fl_Button (0, toolbar_y, status_h, status_h, "A"); autoscale->callback (button_callback, static_cast<void*> (this)); autoscale->tooltip ("Autoscale"); togglegrid = new Fl_Button (status_h, toolbar_y, status_h, status_h, "G"); togglegrid->callback (button_callback, static_cast<void*> (this)); togglegrid->tooltip ("Toggle Grid"); panzoom = new Fl_Button (2* status_h, toolbar_y, status_h, status_h, "P"); panzoom->callback (button_callback, static_cast<void*> (this)); panzoom->tooltip ("Mouse Pan/Zoom"); rotate = new Fl_Button (3 * status_h, toolbar_y, status_h, status_h, "R"); rotate->callback (button_callback, static_cast<void*> (this)); rotate->tooltip ("Mouse Rotate"); help = new Fl_Button (4 * status_h, toolbar_y, status_h, status_h, "?"); help->callback (button_callback, static_cast<void*> (this)); help->tooltip ("Help"); end (); set_name (); uimenu->add_to_menu (fp); if (fp.menubar_is ("none") || !uimenu->items_to_show ()) hide_menubar (); update_boundingbox (internal); if (fp.is_visible ()) { // FIXME: This code should be removed when Octave drops support // for FLTK 1.1. Search for default_xclass in this file to find // code that should be uncommented to take its place. // // Set WM_CLASS which allows window managers to properly group // related windows. Otherwise, the class is just "FLTK" xclass ("Octave"); show (); #if defined (HAVE_X_WINDOWS) std::string show_gui_msgs = octave_env::getenv ("OCTAVE_SHOW_GUI_MESSAGES"); // Installing our handler suppresses the messages. if (show_gui_msgs.empty ()) XSetErrorHandler (xerror_handler); #endif if (fp.get_currentaxes ().ok ()) show_canvas (); else hide_canvas (); } } ~plot_window (void) { this->hide (); Fl::check (); } double number (void) { return fp.get___myhandle__ ().value (); } void renumber (double new_number) { if (canvas) { if (canvas->renumber (new_number)) mark_modified (); } else error ("unable to renumber figure"); } void print (const std::string& cmd, const std::string& term) { canvas->print (cmd, term); } void show_menubar (void) { uimenu->show (); update_toolbar_position (); } void hide_menubar (void) { uimenu->hide (); update_toolbar_position (); } void uimenu_update (const graphics_handle& gh, int id) { graphics_object uimenu_obj = gh_manager::get_object (gh); if (uimenu_obj.valid_object () && uimenu_obj.isa ("uimenu")) { uimenu::properties& uimenup = dynamic_cast<uimenu::properties&> (uimenu_obj.get_properties ()); std::string fltk_label = uimenup.get_fltk_label (); graphics_object fig = uimenu_obj.get_ancestor ("figure"); figure::properties& figp = dynamic_cast<figure::properties&> (fig.get_properties ()); switch (id) { case base_properties::ID_BEINGDELETED: uimenu->remove_from_menu (uimenup); break; case base_properties::ID_VISIBLE: uimenu->update_visible (uimenup); break; case uimenu::properties::ID_ACCELERATOR: uimenu->update_accelerator (uimenup); break; case uimenu::properties::ID_CALLBACK: uimenu->update_callback (uimenup); break; case uimenu::properties::ID_CHECKED: uimenu->add_to_menu (figp);//rebuilding entire menu break; case uimenu::properties::ID_ENABLE: uimenu->update_enable (uimenup); break; case uimenu::properties::ID_FOREGROUNDCOLOR: uimenu->update_foregroundcolor (uimenup); break; case uimenu::properties::ID_LABEL: uimenu->add_to_menu (figp);//rebuilding entire menu break; case uimenu::properties::ID_POSITION: uimenu->add_to_menu (figp);//rebuilding entire menu break; case uimenu::properties::ID_SEPARATOR: uimenu->update_seperator (uimenup); break; } if (uimenu->items_to_show ()) show_menubar (); else hide_menubar (); } } void show_canvas (void) { if (! canvas->can_do ()) error ("unable to plot due to insufficient OpenGL support"); else if (fp.is_visible ()) { canvas->show (); canvas->make_current (); } } void hide_canvas (void) { canvas->hide (); } // Move the toolbar at the bottom of the plot_window. // The only reason for moving the toolbar is hiding and // showing the menubar. All other resizing is done by fltk. void update_toolbar_position () { int old_canvas_h = canvas->h (); // keep position fix, change outerposition accordingly update_boundingbox (true); canvas->resize (0, menu_dy (), w (), old_canvas_h); int toolbar_y = canvas->h () + menu_dy () + 1; autoscale->position (0, toolbar_y); togglegrid->position (status_h, toolbar_y); panzoom->position (2 * status_h, toolbar_y); rotate->position (3 * status_h, toolbar_y); help->position (4 * status_h, toolbar_y); status->resize (5 * status_h + 1, toolbar_y, w () - 5 * status_h - 1, status_h); init_sizes (); redraw (); } Matrix outerposition2position (const Matrix& outerpos) { Matrix pos = outerpos; pos(1) += menu_dy (); pos(3) -= menu_dy () + status_h + 2; return pos; } Matrix position2outerposition (const Matrix& pos) { Matrix outerpos = pos; outerpos(1) -= menu_dy (); outerpos(3) += menu_dy () + status_h + 2; return outerpos; } // Called from figure::properties::ID_POSITION if internal = true // or ID_OUTERPOSITION if false. // (someone has requested a position change with set (h, "position", [...]) // or set (h, "outerposition", [...]) void update_boundingbox (bool internal) { Matrix bb = fp.get_boundingbox (internal); if (internal) bb = position2outerposition (bb); resize (bb(0), bb(1), bb(2), bb(3)); } void mark_modified (void) { canvas->redraw (); } void set_name (void) { window_label = fp.get_title (); label (window_label.c_str ()); } private: // No copying! plot_window (const plot_window&); plot_window& operator = (const plot_window&); // window name -- this must exists for the duration of the window's // life std::string window_label; // Figure properties. figure::properties& fp; // Status area height. static const int status_h = 20; // Menu height static const int menu_h = 25; // Window callback. static void window_close (Fl_Widget*, void* data) { octave_value_list args; args(0) = static_cast<plot_window*> (data)->number (); feval ("close", args); } // Button callbacks. static void button_callback (Fl_Widget* ww, void* data) { static_cast<plot_window*> (data)->button_press (ww, data); } void button_press (Fl_Widget* widg, void*) { if (widg == autoscale) axis_auto (); else if (widg == togglegrid) toggle_grid (); else if (widg == panzoom) set_on_ax_obj ("pan", "on"); else if (widg == rotate) set_on_ax_obj ("rotate3d", "on"); else if (widg == help) fl_message ("%s", help_text); } void set_on_ax_obj (const std::string& name, const std::string& value) { // ax_obj is the last clicked axes object if (ax_obj && ax_obj.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&>(ax_obj.get_properties ()); ap.set (name, value); } else // no axes object clicked so far, take currentaxes { graphics_handle gh = fp.get_currentaxes (); if (gh.ok ()) { graphics_object go = gh_manager::get_object (gh); axes::properties& ap = dynamic_cast<axes::properties&>(go.get_properties ()); ap.set (name, value); } } } fltk_uimenu* uimenu; OpenGL_fltk* canvas; Fl_Button* autoscale; Fl_Button* togglegrid; Fl_Button* panzoom; Fl_Button* rotate; Fl_Button* help; Fl_Output* status; Fl_Box* resize_dummy; graphics_object ax_obj; int pos_x; int pos_y; void axis_auto (void) { octave_value_list args; if (fp.get_currentaxes ().ok ()) { args(0) = fp.get_currentaxes ().as_octave_value (); args(1) = "auto"; feval ("axis", args); mark_modified (); } } void toggle_grid (void) { octave_value_list args; if (fp.get_currentaxes ().ok ()) args(0) = fp.get_currentaxes ().as_octave_value (); feval ("grid", args); mark_modified (); } void pixel2pos (const graphics_handle& ax, int px, int py, double& xx, double& yy) const { pixel2pos (gh_manager::get_object (ax), px, py, xx, yy); } void pixel2pos (graphics_object ax, int px, int py, double& xx, double& yy) const { if (ax && ax.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax.get_properties ()); ColumnVector pp = ap.pixel2coord (px, py); xx = pp(0); yy = pp(1); } } graphics_handle pixel2axes_or_ca (int px, int py) { Matrix kids = fp.get_children (); int len = kids.length (); for (int k = 0; k < len; k++) { graphics_handle hnd = gh_manager::lookup (kids(k)); if (hnd.ok ()) { graphics_object kid = gh_manager::get_object (hnd); if (kid.valid_object () && kid.isa ("axes")) { Matrix bb = kid.get_properties ().get_boundingbox (false); if (bb(0) <= px && px < (bb(0)+bb(2)) && bb(1) <= py && py < (bb(1)+bb(3))) { return hnd; } } } } return fp.get_currentaxes (); } void pixel2status (const graphics_handle& ax, int px0, int py0, int px1 = -1, int py1 = -1) { pixel2status (gh_manager::get_object (ax), px0, py0, px1, py1); } void pixel2status (graphics_object ax, int px0, int py0, int px1 = -1, int py1 = -1) { double x0, y0, x1, y1; x0 = y0 = x1 = y1 = octave_NaN; std::stringstream cbuf; cbuf.precision (4); cbuf.width (6); pixel2pos (ax, px0, py0, x0, y0); cbuf << "[" << x0 << ", " << y0 << "]"; if (px1 >= 0) { pixel2pos (ax, px1, py1, x1, y1); cbuf << " -> ["<< x1 << ", " << y1 << "]"; } status->value (cbuf.str ().c_str ()); } void view2status (graphics_object ax) { if (ax && ax.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax.get_properties ()); std::stringstream cbuf; cbuf.precision (4); cbuf.width (6); Matrix v (1,2,0); v = ap.get ("view").matrix_value (); cbuf << "[azimuth: " << v(0) << ", elevation: " << v(1) << "]"; status->value (cbuf.str ().c_str ()); } } void set_currentpoint (int px, int py) { if (!fp.is_beingdeleted ()) { Matrix pos = fp.map_from_boundingbox (px, py); fp.set_currentpoint (pos); graphics_object robj = gh_manager::get_object (fp.get_parent ()); root_figure::properties& rp = dynamic_cast<root_figure::properties&> (robj.get_properties ()); rp.set_currentfigure (fp.get___myhandle__ ().value ()); } } void set_axes_currentpoint (graphics_object ax, int px, int py) { if (ax.valid_object () && ax.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax.get_properties ()); Matrix x_zlim = ap.get_transform_zlim (); Matrix pos (2, 3, 0.0); // front point (nearest to the viewer) ColumnVector tmp = ap.get_transform ().untransform (px, py, x_zlim(0)); pos(0,0) = tmp(0); pos(0,1) = tmp(1); pos(0,2) = tmp(2); // back point (furthest from the viewer) tmp = ap.get_transform ().untransform (px, py, x_zlim(1)); pos(1,0) = tmp(0); pos(1,1) = tmp(1); pos(1,2) = tmp(2); ap.set_currentpoint (pos); fp.set_currentaxes (ap.get___myhandle__ ().value ()); } } int menu_dy () { if (uimenu->is_visible ()) return menu_h; else return 0; } octave_scalar_map format_key_event (int e_key, const char* e_text, int e_state) { octave_scalar_map evt; evt.assign ("Character", octave_value (e_text)); evt.assign ("Modifier", octave_value (modifier2cell (e_state))); std::string key_str; std::ostringstream tmp_str; if (e_key == FL_Escape) key_str = "escape"; else if (e_key == FL_Tab) key_str = "tab"; else if (e_key == FL_Caps_Lock) key_str = "capslock"; else if (e_key == FL_Shift_L || e_key == FL_Shift_R) key_str = "shift"; else if (e_key == FL_Control_L || e_key == FL_Control_R) key_str = "control"; else if (e_key == FL_Meta_L || e_key == FL_Meta_R) key_str = "windows"; else if (e_key == FL_Alt_L || e_key == FL_Alt_R) key_str = "alt"; else if (e_key == 32) key_str = "space"; else if (e_key == FL_Enter) key_str = "return"; else if (e_key == FL_BackSpace) key_str = "backspace"; else if (e_key == FL_Print) key_str = "printscreen"; else if (e_key == FL_Pause) key_str = "pause"; else if (e_key == FL_Home) key_str = "home"; else if (e_key == FL_End) key_str = "end"; else if (e_key == FL_Insert) key_str = "insert"; else if (e_key == FL_Page_Up) key_str = "pageup"; else if (e_key == FL_Delete) key_str = "delete"; else if (e_key == FL_Page_Down) key_str = "pagedown"; else if (e_key == FL_Left) key_str = "leftarrow"; else if (e_key == FL_Up) key_str = "uparrow"; else if (e_key == FL_Right) key_str = "rightarrow"; else if (e_key == FL_Down) key_str = "downarrow"; else if (e_key == FL_Num_Lock) key_str = "numlock"; else if (e_key == 0xffaf) key_str = "divide"; else if (e_key == 0xffaa) key_str = "multiply"; else if (e_key == 0xffad) key_str = "subtract"; else if (e_key == 0xffab) key_str = "add"; else if (e_key == 0xff8d) key_str = "return"; else if (e_key == 0xffac) key_str = "separator"; else if (e_key >= 0xffb0 && e_key <= 0xffb9) { tmp_str << "numpad" << (e_key - 0xffb0); key_str = tmp_str.str (); } else if (e_key >= (FL_F + 1) && e_key <= (FL_F + 12)) { tmp_str << "f" << (e_key - FL_F); key_str = tmp_str.str (); } else if (e_key == ',') key_str = "comma"; else if (e_key == '.') key_str = "period"; else if (e_key == '-') key_str = "hyphen"; else if (e_key == '^' || e_key == '+' || e_key == '#' || e_key == '<' || e_key == 0xfe03 /*AltGr*/) key_str = "0"; else if (isalnum (e_key)) key_str = std::tolower (e_key); else if (isprint (e_text[0])) key_str = "0"; evt.assign ("Key", octave_value (key_str)); return evt; } Cell modifier2cell (int e_state) { string_vector mod; if (e_state & FL_SHIFT) mod.append (std::string ("shift")); if (e_state & FL_CTRL) mod.append (std::string ("control")); if (e_state & FL_ALT) mod.append (std::string ("alt")); if (e_state & FL_COMMAND) mod.append (std::string ("command")); return Cell (mod); } void resize (int xx, int yy, int ww, int hh) { Fl_Window::resize (xx, yy, ww, hh); Matrix bb (1, 4); bb(0) = xx; bb(1) = yy; bb(2) = ww; bb(3) = hh; // update outerposition fp.set_boundingbox (bb, false, false); // update position fp.set_boundingbox (outerposition2position (bb), true, false); } int handle (int event) { if (event == FL_FOCUS) return 1; graphics_handle gh; if (!fp.is_beingdeleted ()) { //std::cout << "plot_window::handle event = " << fl_eventnames[event] << std::endl; // FLTK resends keyboard events with flipped case if all // widgets rejects the event. // See Event Propagation http://www.fltk.org/doc-1.3/events.html static bool key_resent_detected = false; switch (event) { case FL_SHORTCUT: { // check if it a resent event with switched case static int last_event_key = 0; static char last_event_text = 0; int e_key = Fl::event_key (); char e_text = Fl::event_text ()[0]; key_resent_detected = (e_key == last_event_key && std::tolower (last_event_text) == std::tolower (e_text) && ((islower (last_event_text) && isupper (e_text)) || (isupper (last_event_text) && islower (e_text)))); last_event_key = e_key; last_event_text = e_text; } break; case FL_KEYDOWN: { int e_key = Fl::event_key (); const char *e_text = Fl::event_text (); int e_state = Fl::event_state (); octave_scalar_map evt = format_key_event (e_key, e_text, e_state); fp.set_currentcharacter (std::string (e_text)); if (fp.get_keypressfcn ().is_defined () && (evt.contents ("Key").length () > 0)) fp.execute_keypressfcn (evt); switch (e_key) { case 'a': case 'A': axis_auto (); return 1; case 'g': case 'G': toggle_grid (); return 1; case 'p': case 'P': set_on_ax_obj ("pan", "on"); return 1; case 'r': case 'R': set_on_ax_obj ("rotate3d", "on"); return 1; } } break; case FL_KEYUP: { int e_key = Fl::event_key (); int e_state = Fl::event_state (); octave_scalar_map evt; if (key_resent_detected && Fl::event_length () == 1) { // FLTK flipped the case of Fl::event_text because no // widget wanted the FL_KEYDOWN event. char tmp_e_text[2]; tmp_e_text[0] = Fl::event_text ()[0]; tmp_e_text[1] = 0; // Undo the case flip if (std::islower (tmp_e_text[0])) tmp_e_text[0] = std::toupper (tmp_e_text[0]); else tmp_e_text[0] = std::tolower (tmp_e_text[0]); evt = format_key_event (e_key, tmp_e_text, e_state); } else { const char *e_text = Fl::event_text (); evt = format_key_event (e_key, e_text, e_state); } if (fp.get_keyreleasefcn ().is_defined () && (evt.contents ("Key").length () > 0)) fp.execute_keyreleasefcn (evt); return 1; } break; } // Events we only handle if they are in the canvas area. if (Fl::event_inside (canvas)) switch (event) { case FL_MOVE: pixel2status (pixel2axes_or_ca (Fl::event_x (), Fl::event_y () - menu_dy ()), Fl::event_x (), Fl::event_y () - menu_dy ()); return 1; case FL_PUSH: pos_x = Fl::event_x (); pos_y = Fl::event_y () - menu_dy (); set_currentpoint (pos_x, pos_y); if (Fl::event_button () == FL_LEFT_MOUSE && Fl::event_shift ()) fp.set_selectiontype ("extend"); else if ((Fl::event_button () == FL_LEFT_MOUSE && Fl::event_ctrl ()) || Fl::event_button () == FL_RIGHT_MOUSE) fp.set_selectiontype ("alternate"); else if (Fl::event_clicks ()) fp.set_selectiontype ("open"); else fp.set_selectiontype ("normal"); if (fp.get_windowbuttondownfcn ().is_defined ()) fp.execute_windowbuttondownfcn (Fl::event_button ()); gh = pixel2axes_or_ca (pos_x, pos_y); if (gh.ok ()) { ax_obj = gh_manager::get_object (gh); set_axes_currentpoint (ax_obj, pos_x, pos_y); int ndim = calc_dimensions (ax_obj); if (ndim == 3) rotate->activate (); else // ndim == 2 rotate->deactivate (); fp.set_currentobject (ax_obj.get_handle ().value ()); base_properties& props = ax_obj.get_properties (); if (props.get_buttondownfcn ().is_defined ()) props.execute_buttondownfcn (Fl::event_button ()); return 1; } else if (fp.get_buttondownfcn ().is_defined ()) fp.execute_buttondownfcn (Fl::event_button ()); break; case FL_DRAG: if (fp.get_windowbuttonmotionfcn ().is_defined ()) { set_currentpoint (Fl::event_x (), Fl::event_y () - menu_dy ()); fp.execute_windowbuttonmotionfcn (); } if (Fl::event_button () == 1) { if (ax_obj && ax_obj.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax_obj.get_properties ()); // Don't pan or rotate legend if (ap.get_tag ().compare ("legend") < 0) { if (ap.rotate3d_is ("on")) view2status (ax_obj); else pixel2status (ax_obj, pos_x, pos_y, Fl::event_x (), Fl::event_y () - menu_dy ()); double x0, y0, x1, y1; Matrix pos = fp.get_boundingbox (true); pixel2pos (ax_obj, pos_x, pos_y, x0, y0); pixel2pos (ax_obj, Fl::event_x (), Fl::event_y () - menu_dy (), x1, y1); if (ap.pan_is ("on")) ap.translate_view (x0, x1, y0, y1); else if (ap.pan_is ("xon")) ap.translate_view (x0, x1, y1, y1); else if (ap.pan_is ("yon")) ap.translate_view (x1, x1, y0, y1); else if (ap.rotate3d_is ("on")) { double daz, del; daz = (Fl::event_x () - pos_x) / pos(2) * 360; del = (Fl::event_y () - menu_dy () - pos_y) / pos(3) * 360; ap.rotate_view (del, daz); } } else { // move the position of the legend Matrix pos = ap.get_position ().matrix_value (); pos(0) += double (Fl::event_x () - pos_x) / canvas->w (); pos(1) -= double (Fl::event_y () - menu_dy () - pos_y) / canvas->h (); ap.set_position (pos); } pos_x = Fl::event_x (); pos_y = Fl::event_y () - menu_dy (); mark_modified (); } return 1; } else if (Fl::event_button () == 3) { pixel2status (ax_obj, pos_x, pos_y, Fl::event_x (), Fl::event_y () - menu_dy ()); Matrix zoom_box (1,4,0); zoom_box (0) = pos_x; zoom_box (1) = pos_y; zoom_box (2) = Fl::event_x (); zoom_box (3) = Fl::event_y () - menu_dy (); canvas->set_zoom_box (zoom_box); canvas->zoom (true); mark_modified (); return 1; } break; case FL_MOUSEWHEEL: { graphics_object ax = gh_manager::get_object (pixel2axes_or_ca (Fl::event_x (), Fl::event_y () - menu_dy ())); if (ax && ax.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax.get_properties ()); // Control how fast to zoom when using scroll wheel. double Vwheel_zoom_speed = ap.get_mouse_wheel_zoom (); // Determine if we're zooming in or out. const double factor = (Fl::event_dy () > 0) ? 1 / (1.0 - Vwheel_zoom_speed) : 1.0 - Vwheel_zoom_speed; // Get the point we're zooming about. double x1, y1; pixel2pos (ax, Fl::event_x (), Fl::event_y () - menu_dy (), x1, y1); ap.zoom_about_point (x1, y1, factor, false); mark_modified (); return 1; } } case FL_RELEASE: if (fp.get_windowbuttonupfcn ().is_defined ()) { set_currentpoint (Fl::event_x (), Fl::event_y () - menu_dy ()); fp.execute_windowbuttonupfcn (); } if ((Fl::event_button () == 1) && Fl::event_clicks ()) { // Double click set_on_ax_obj ("xlimmode", "auto"); set_on_ax_obj ("ylimmode", "auto"); set_on_ax_obj ("zlimmode", "auto"); return 1; } if (Fl::event_button () == 3) { // End of drag -- zoom. if (canvas->zoom ()) { canvas->zoom (false); double x0,y0,x1,y1; if (ax_obj && ax_obj.isa ("axes")) { axes::properties& ap = dynamic_cast<axes::properties&> (ax_obj.get_properties ()); pixel2pos (ax_obj, pos_x, pos_y, x0, y0); int pos_x1 = Fl::event_x (); int pos_y1 = Fl::event_y () - menu_dy (); pixel2pos (ax_obj, pos_x1, pos_y1, x1, y1); Matrix xl (1,2,0); Matrix yl (1,2,0); int dx = abs (pos_x - pos_x1); int dy = abs (pos_y - pos_y1); // Smallest zoom box must be 4 pixels square if ((dx > 4) && (dy > 4)) { if (x0 < x1) { xl(0) = x0; xl(1) = x1; } else { xl(0) = x1; xl(1) = x0; } if (y0 < y1) { yl(0) = y0; yl(1) = y1; } else { yl(0) = y1; yl(1) = y0; } ap.zoom (xl, yl); } mark_modified (); return 1; } } } break; } } //std::cout << "plot_window::handle wasn't interested in event " << fl_eventnames[event] << std::endl; return Fl_Window::handle (event); } }; class figure_manager { public: static bool instance_ok (void) { bool retval = true; if (! instance) instance = new figure_manager (); if (! instance) { ::error ("unable to create figure_manager object!"); retval = false; } return retval; } ~figure_manager (void) { close_all (); } static void close_all (void) { if (instance_ok ()) instance->do_close_all (); } static void new_window (figure::properties& fp) { if (instance_ok ()) instance->do_new_window (fp); } static void delete_window (int idx) { if (instance_ok ()) instance->do_delete_window (idx); } static void delete_window (const std::string& idx_str) { delete_window (str2idx (idx_str)); } static void renumber_figure (const std::string& idx_str, double new_number) { if (instance_ok ()) instance->do_renumber_figure (str2idx (idx_str), new_number); } static void toggle_window_visibility (int idx, bool is_visible) { if (instance_ok ()) instance->do_toggle_window_visibility (idx, is_visible); } static void toggle_window_visibility (const std::string& idx_str, bool is_visible) { toggle_window_visibility (str2idx (idx_str), is_visible); } static void mark_modified (int idx) { if (instance_ok ()) instance->do_mark_modified (idx); } static void mark_modified (const graphics_handle& gh) { mark_modified (hnd2idx (gh)); } static void set_name (int idx) { if (instance_ok ()) instance->do_set_name (idx); } static void set_name (const std::string& idx_str) { set_name (str2idx (idx_str)); } static Matrix get_size (int idx) { return instance_ok () ? instance->do_get_size (idx) : Matrix (); } static Matrix get_size (const graphics_handle& gh) { return get_size (hnd2idx (gh)); } static void print (const graphics_handle& gh, const std::string& cmd, const std::string& term) { if (instance_ok ()) instance->do_print (hnd2idx (gh), cmd, term); } static void uimenu_update (const graphics_handle& figh, const graphics_handle& uimenuh, int id) { if (instance_ok ()) instance->do_uimenu_update (hnd2idx (figh), uimenuh, id); } static void update_canvas (const graphics_handle& gh, const graphics_handle& ca) { if (instance_ok ()) instance->do_update_canvas (hnd2idx (gh), ca); } static void update_boundingbox (const std::string& fig_idx_str, bool internal) { if (instance_ok ()) instance->do_update_boundingbox (str2idx (fig_idx_str), internal); } static void toggle_menubar_visibility (const std::string& fig_idx_str, bool menubar_is_figure) { if (instance_ok ()) instance->do_toggle_menubar_visibility (str2idx (fig_idx_str), menubar_is_figure); } private: static figure_manager *instance; figure_manager (void) { } // No copying! figure_manager (const figure_manager&); figure_manager& operator = (const figure_manager&); // Singelton -- hide all of the above. static int curr_index; typedef std::map<int, plot_window*> window_map; typedef window_map::iterator wm_iterator;; window_map windows; static std::string fltk_idx_header; void do_close_all (void) { wm_iterator win; for (win = windows.begin (); win != windows.end (); win++) delete win->second; windows.clear (); } void do_new_window (figure::properties& fp) { int idx = figprops2idx (fp); if (idx >= 0 && windows.find (idx) == windows.end ()) { Matrix pos = fp.get_outerposition ().matrix_value (); bool internal = false; // check if figure::properties::outerposition is default -1.0 if (pos(2) != -1.0 && pos(3) != -1.0) { pos = fp.get_boundingbox (internal); } else { // use position internal = true; pos = fp.get_boundingbox (internal); } idx2figprops (curr_index, fp); windows[curr_index++] = new plot_window (pos(0), pos(1), pos(2), pos(3), fp, internal); } } void do_delete_window (int idx) { wm_iterator win = windows.find (idx); if (win != windows.end ()) { delete win->second; windows.erase (win); } } void do_renumber_figure (int idx, double new_number) { wm_iterator win = windows.find (idx); if (win != windows.end ()) win->second->renumber (new_number); } void do_toggle_window_visibility (int idx, bool is_visible) { wm_iterator win = windows.find (idx); if (win != windows.end ()) { if (is_visible) { win->second->show (); win->second->show_canvas (); } else win->second->hide (); } } void do_toggle_menubar_visibility (int fig_idx, bool menubar_is_figure) { wm_iterator win = windows.find (fig_idx); if (win != windows.end ()) { if (menubar_is_figure) win->second->show_menubar (); else win->second->hide_menubar (); win->second->redraw (); } } void do_mark_modified (int idx) { wm_iterator win = windows.find (idx); if (win != windows.end ()) { win->second->mark_modified (); } } void do_set_name (int idx) { wm_iterator win = windows.find (idx); if (win != windows.end ()) win->second->set_name (); } Matrix do_get_size (int idx) { Matrix sz (1, 2, 0.0); wm_iterator win = windows.find (idx); if (win != windows.end ()) { sz(0) = win->second->w (); sz(1) = win->second->h (); } return sz; } void do_print (int idx, const std::string& cmd, const std::string& term) { wm_iterator win = windows.find (idx); if (win != windows.end ()) win->second->print (cmd, term); } void do_uimenu_update (int idx, const graphics_handle& gh, int id) { wm_iterator win = windows.find (idx); if (win != windows.end ()) win->second->uimenu_update (gh, id); } void do_update_canvas (int idx, const graphics_handle& ca) { wm_iterator win = windows.find (idx); if (win != windows.end ()) { if (ca.ok ()) win->second->show_canvas (); else win->second->hide_canvas (); } } void do_update_boundingbox (int idx, bool internal) { wm_iterator win = windows.find (idx); if (win != windows.end ()) win->second->update_boundingbox (internal); } static int str2idx (const caseless_str& clstr) { int ind; if (clstr.find (fltk_idx_header,0) == 0) { std::istringstream istr (clstr.substr (fltk_idx_header.size ())); if (istr >> ind) return ind; } error ("figure_manager: could not recognize fltk index"); return -1; } void idx2figprops (int idx, figure::properties& fp) { std::ostringstream ind_str; ind_str << fltk_idx_header << idx; fp.set___plot_stream__ (ind_str.str ()); } static int figprops2idx (const figure::properties& fp) { if (fp.get___graphics_toolkit__ () == FLTK_GRAPHICS_TOOLKIT_NAME) { octave_value ps = fp.get___plot_stream__ (); if (ps.is_string ()) return str2idx (ps.string_value ()); else return 0; } error ("figure_manager: figure is not fltk"); return -1; } static int hnd2idx (double h) { graphics_object fobj = gh_manager::get_object (h); if (fobj && fobj.isa ("figure")) { figure::properties& fp = dynamic_cast<figure::properties&> (fobj.get_properties ()); return figprops2idx (fp); } error ("figure_manager: H (= %g) is not a figure", h); return -1; } static int hnd2idx (const graphics_handle& fh) { return hnd2idx (fh.value ()); } }; figure_manager *figure_manager::instance = 0; std::string figure_manager::fltk_idx_header="fltk index="; int figure_manager::curr_index = 1; static bool toolkit_loaded = false; class fltk_graphics_toolkit : public base_graphics_toolkit { public: fltk_graphics_toolkit (void) : base_graphics_toolkit (FLTK_GRAPHICS_TOOLKIT_NAME), input_event_hook_fcn_id () { Fl::visual (FL_RGB); } ~fltk_graphics_toolkit (void) { } bool is_valid (void) const { return true; } bool initialize (const graphics_object& go) { if (go.isa ("figure") || go.isa ("uimenu")) { if (go.isa ("uimenu")) update (go, uimenu::properties::ID_LABEL); return true; } return false; } void finalize (const graphics_object& go) { if (go.isa ("figure")) { octave_value ov = go.get (caseless_str ("__plot_stream__")); if (! ov.is_empty ()) figure_manager::delete_window (ov.string_value ()); } } void uimenu_set_fltk_label (graphics_object uimenu_obj) { if (uimenu_obj.valid_object ()) { uimenu::properties& uimenup = dynamic_cast<uimenu::properties&> (uimenu_obj.get_properties ()); std::string fltk_label = uimenup.get_label (); graphics_object go = gh_manager::get_object (uimenu_obj.get_parent ()); if (go.isa ("uimenu")) fltk_label = dynamic_cast<const uimenu::properties&> (go.get_properties ()).get_fltk_label () + "/" + fltk_label; else if (go.isa ("figure")) ; else error ("unexpected parent object\n"); uimenup.set_fltk_label (fltk_label); } } void update (const graphics_object& go, int id) { if (go.isa ("figure")) { octave_value ov = go.get (caseless_str ("__plot_stream__")); if (! ov.is_empty ()) { const figure::properties& fp = dynamic_cast<const figure::properties&> (go.get_properties ()); switch (id) { case base_properties::ID_VISIBLE: figure_manager::toggle_window_visibility (ov.string_value (), fp.is_visible ()); break; case figure::properties::ID_MENUBAR: figure_manager::toggle_menubar_visibility (ov.string_value (), fp.menubar_is ("figure")); break; case figure::properties::ID_CURRENTAXES: figure_manager::update_canvas (go.get_handle (), fp.get_currentaxes ()); break; case figure::properties::ID_NAME: case figure::properties::ID_NUMBERTITLE: figure_manager::set_name (ov.string_value ()); break; case figure::properties::ID_INTEGERHANDLE: { std::string tmp = ov.string_value (); graphics_handle gh = fp.get___myhandle__ (); figure_manager::renumber_figure (tmp, gh.value ()); figure_manager::set_name (tmp); } break; case figure::properties::ID_POSITION: figure_manager::update_boundingbox (ov.string_value (), true); break; case figure::properties::ID_OUTERPOSITION: figure_manager::update_boundingbox (ov.string_value (), false); break; } } } else if (go.isa ("uimenu")) { if (id == uimenu::properties::ID_LABEL) uimenu_set_fltk_label (go); graphics_object fig = go.get_ancestor ("figure"); figure_manager::uimenu_update (fig.get_handle (), go.get_handle (), id); } } void redraw_figure (const graphics_object& go) const { // We scan all figures and add those which use FLTK. graphics_object obj = gh_manager::get_object (0); if (obj && obj.isa ("root")) { base_properties& props = obj.get_properties (); Matrix children = props.get_all_children (); for (octave_idx_type n = 0; n < children.numel (); n++) { graphics_object fobj = gh_manager::get_object (children (n)); if (fobj && fobj.isa ("figure")) { figure::properties& fp = dynamic_cast<figure::properties&> (fobj.get_properties ()); if (fp.get___graphics_toolkit__ () == FLTK_GRAPHICS_TOOLKIT_NAME) figure_manager::new_window (fp); } } } figure_manager::mark_modified (go.get_handle ()); Fl::check (); } void print_figure (const graphics_object& go, const std::string& term, const std::string& file_cmd, bool /*mono*/, const std::string& /*debug_file*/) const { figure_manager::print (go.get_handle (), file_cmd, term); } Matrix get_canvas_size (const graphics_handle& fh) const { return figure_manager::get_size (fh); } /* double get_screen_resolution (void) const { // FLTK doesn't give this info. return 72.0; // FIXME: FLTK >= 1.3.0 could do this with Fl::screen_dpi (h, v, n) // but do we need it? } */ Matrix get_screen_size (void) const { Matrix sz (1, 2, 0.0); sz(0) = Fl::w (); sz(1) = Fl::h (); return sz; } void close (void) { if (toolkit_loaded) { munlock ("__init_fltk__"); octave_value_list args = input_event_hook_fcn_id; args.append (false); Fremove_input_event_hook (args, 0); input_event_hook_fcn_id = octave_value_list (); figure_manager::close_all (); } } void set_input_event_hook_id (const octave_value_list& id) { input_event_hook_fcn_id = id; } private: octave_value_list input_event_hook_fcn_id; }; #endif DEFUN_DLD (__fltk_check__, , , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {} __fltk_check__ ()\n\ Undocumented internal function. Calls Fl::check ()\n\ @end deftypefn") { #ifdef HAVE_FLTK Fl::check (); #else error ("__fltk_check__: not available without OpenGL and FLTK libraries"); #endif return octave_value (); } // Initialize the fltk graphics toolkit. DEFUN_DLD (__init_fltk__, , , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {} __init_fltk__ ()\n\ Undocumented internal function.\n\ @end deftypefn") { #ifdef HAVE_FLTK if (! display_info::display_available ()) error ("__init_fltk__: no graphics DISPLAY available"); else if (! toolkit_loaded) { mlock (); fltk_graphics_toolkit *fltk = new fltk_graphics_toolkit (); graphics_toolkit tk (fltk); gtk_manager::load_toolkit (tk); toolkit_loaded = true; octave_value fcn (new octave_builtin (F__fltk_check__)); octave_value fcn_handle (new octave_fcn_handle (fcn, "@__fltk_check__")); octave_value_list id = Fadd_input_event_hook (fcn_handle, 1); fltk->set_input_event_hook_id (id); } #else error ("__init_fltk__: not available without OpenGL and FLTK libraries"); #endif return octave_value (); } DEFUN_DLD (__have_fltk__, , , "-*- texinfo -*-\n\ @deftypefn {Loadable Function} {@var{FLTK_available} =} __have_fltk__ ()\n\ Undocumented internal function.\n\ @end deftypefn") { octave_value retval; #ifdef HAVE_FLTK retval = true; #else retval = false; #endif return retval; }