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Christophe Geuzaine authoredChristophe Geuzaine authored
GUI.cpp 105.10 KiB
// $Id: GUI.cpp,v 1.197 2002-10-02 17:10:46 geuzaine Exp $
//
// Copyright (C) 1997 - 2002 C. Geuzaine, J.-F. Remacle
//
// This program 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 2 of the License, or
// (at your option) any later version.
//
// This program 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 this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA.
//
// Please report all bugs and problems to "gmsh@geuz.org".
// To make the interface as visually consistent as possible, please:
// - use the IW, BB, BH, BW and WB values
// - examine what's already done before adding something new...
#include "PluginManager.h"
#include "Plugin.h"
#include "Gmsh.h"
#include "GmshUI.h"
#include "Numeric.h"
#include "GmshVersion.h"
#include "Context.h"
#include "Options.h"
#include "Geo.h"
#include "Mesh.h"
#include "Draw.h"
#include "GUI.h"
#include "Callbacks.h"
#include "Bitmaps.h"
#include "Icon.h"
#include "OpenFile.h"
#include "CommandLine.h"
#include "Solvers.h"
#if (FL_MAJOR_VERSION == 1) && (FL_MINOR_VERSION == 0)
#define WINDOW_BOX FL_FLAT_BOX
#define TOGGLE_BOX FL_DOWN_BOX
#define TOGGLE_COLOR FL_YELLOW
#define RADIO_BOX FL_DIAMOND_DOWN_BOX
#define RADIO_COLOR FL_YELLOW
#else
#define WINDOW_BOX FL_FLAT_BOX
#define TOGGLE_BOX FL_DOWN_BOX
#define TOGGLE_COLOR FL_BLACK
#define RADIO_BOX FL_ROUND_DOWN_BOX
#define RADIO_COLOR FL_BLACK
#endif
#define IW (10*CTX.fontsize) // input field width
#define BB (5*CTX.fontsize-2) // width of a button with internal label
#define BH (2*CTX.fontsize+1) // button height
#define WB (5) // window border
extern Context_T CTX;
// Definition of the static menus
// Don't define shortcuts for FL_CTRL+'n', FL_CTRL+'p', FL_CTRL+'f', FL_CTRL+'b'
// these are used by fltk for widget navigation (in the same way as the 4 arrow keys)
Fl_Menu_Item m_menubar_table[] = {
{"File", 0, 0, 0, FL_SUBMENU},
{"Open...", FL_CTRL+'o', (Fl_Callback *)file_open_cb, 0},
{"Merge...", FL_CTRL+'m', (Fl_Callback *)file_merge_cb, 0},
{"Save mesh", FL_CTRL+'s', (Fl_Callback *)mesh_save_cb, 0},
#if (FL_MAJOR_VERSION == 1) && (FL_MINOR_VERSION == 0)
{"Save as", 0, 0, 0, FL_MENU_DIVIDER|FL_SUBMENU},
{"By extension...", FL_CTRL+'e', (Fl_Callback *)file_save_as_auto_cb, 0, FL_MENU_DIVIDER},
{"Geometry", 0, 0, 0, FL_SUBMENU},
{"Gmsh current options (*.opt)...", 0, (Fl_Callback *)file_save_as_geo_options_cb, 0},
{"Gmsh unrolled geometry (*.geo)...", 0, (Fl_Callback *)file_save_as_geo_cb, 0},
{0},
{"Mesh", 0, 0, 0, FL_SUBMENU},
{"Gmsh (*.msh)...", 0, (Fl_Callback *)file_save_as_msh_cb, 0},
{"Gmsh all elements...", 0, (Fl_Callback *)file_save_as_msh_all_cb, 0},
{"GREF (*.gref)...", 0, (Fl_Callback *)file_save_as_gref_cb, 0},
{"I-DEAS universal format (*.unv)...", 0, (Fl_Callback *)file_save_as_unv_cb, 0},
{"VRML lines/surfaces (*.wrl)...", 0, (Fl_Callback *)file_save_as_vrml_cb, 0},
{0},
{"Image", 0, 0, 0, FL_SUBMENU},
{"GIF (*.gif)...", 0, (Fl_Callback *)file_save_as_gif_cb, 0},
{"GIF dithered...", 0, (Fl_Callback *)file_save_as_gif_dithered_cb, 0},
{"GIF transparent...", 0, (Fl_Callback *)file_save_as_gif_transparent_cb, 0},
{"JPEG (*.jpg)...", 0, (Fl_Callback *)file_save_as_jpeg_cb, 0},
{"PostScript fast (*.ps)...", 0, (Fl_Callback *)file_save_as_ps_simple_cb, 0},
{"PostScript accurate...", 0, (Fl_Callback *)file_save_as_ps_accurate_cb, 0},
{"PPM (*.ppm)...", 0, (Fl_Callback *)file_save_as_ppm_cb, 0},
{"LaTeX JPEG...", 0, (Fl_Callback *)file_save_as_jpegtex_cb, 0},
{"LaTeX PostScript fast...", 0, (Fl_Callback *)file_save_as_pstex_simple_cb, 0},
{"LaTeX PostScript accurate...", 0, (Fl_Callback *)file_save_as_pstex_accurate_cb, 0},
{"LaTeX TeX (*.tex)...", 0, (Fl_Callback *)file_save_as_tex_cb, 0},
{"UCB YUV (*.yuv)...", 0, (Fl_Callback *)file_save_as_yuv_cb, 0},
{0},
{0},
#else
{"Save as...", FL_CTRL+FL_SHIFT+'s', (Fl_Callback *)file_save_as_cb, 0, FL_MENU_DIVIDER},
#endif
{"Visibility...", FL_SHIFT+'v', (Fl_Callback *)opt_visibility_cb, 0},
{"Messages...", FL_SHIFT+'l', (Fl_Callback *)opt_message_cb, 0},
{"Statistics...", FL_SHIFT+'i', (Fl_Callback *)opt_statistics_cb, 0, FL_MENU_DIVIDER},
{"Quit", FL_CTRL+'q', (Fl_Callback *)file_quit_cb, 0},
{0},
{"Options",0,0,0,FL_SUBMENU},
{"General...", FL_SHIFT+'o', (Fl_Callback *)opt_general_cb, 0, FL_MENU_DIVIDER},
{"Geometry...", FL_SHIFT+'g', (Fl_Callback *)opt_geometry_cb, 0},
{"Mesh...", FL_SHIFT+'m', (Fl_Callback *)opt_mesh_cb, 0},
{"Solver...", FL_SHIFT+'s', (Fl_Callback *)opt_solver_cb, 0},
{"Post-processing...", FL_SHIFT+'p', (Fl_Callback *)opt_post_cb, 0, FL_MENU_DIVIDER},
{"Save options now", 0, (Fl_Callback *)opt_save_cb, 0},
{0},
{"Help",0,0,0,FL_SUBMENU},
{"Current options...", 0, (Fl_Callback *)status_xyz1p_cb, (void*)4},
{"Shortcuts...", 0, (Fl_Callback *)help_short_cb, 0},
{"Command line options...", 0, (Fl_Callback *)help_command_line_cb, 0, FL_MENU_DIVIDER},
{"About...", 0, (Fl_Callback *)help_about_cb, 0},
{0},
{0}
};
Fl_Menu_Item m_module_table[] = {
{"Geometry", 'g', (Fl_Callback *)mod_geometry_cb, 0},
{"Mesh", 'm', (Fl_Callback *)mod_mesh_cb, 0},
{"Solver", 's', (Fl_Callback *)mod_solver_cb, 0},
{"Post-processing", 'p', (Fl_Callback *)mod_post_cb, 0},
{0}
};
// Definition of the dynamic contexts
Context_Item menu_geometry[] =
{ { "0Geometry", NULL } ,
{ "Elementary", (Fl_Callback *)geometry_elementary_cb } ,
{ "Physical", (Fl_Callback *)geometry_physical_cb } ,
{ "Edit", (Fl_Callback *)geometry_edit_cb } ,
{ "Reload", (Fl_Callback *)geometry_reload_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary[] =
{ { "0Geometry Elementary", NULL } ,
{ "Add", (Fl_Callback *)geometry_elementary_add_cb } ,
{ "Translate", (Fl_Callback *)geometry_elementary_translate_cb } ,
{ "Rotate", (Fl_Callback *)geometry_elementary_rotate_cb } ,
{ "Scale", (Fl_Callback *)geometry_elementary_scale_cb } ,
{ "Symmetry", (Fl_Callback *)geometry_elementary_symmetry_cb } ,
{ "Extrude", (Fl_Callback *)geometry_elementary_extrude_cb } ,
{ "Delete", (Fl_Callback *)geometry_elementary_delete_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add[] =
{ { "0Geometry Elementary Add", NULL } ,
{ "New", (Fl_Callback *)geometry_elementary_add_new_cb } ,
{ "Translate", (Fl_Callback *)geometry_elementary_add_translate_cb } ,
{ "Rotate", (Fl_Callback *)geometry_elementary_add_rotate_cb } ,
{ "Scale", (Fl_Callback *)geometry_elementary_add_scale_cb } ,
{ "Symmetry", (Fl_Callback *)geometry_elementary_add_symmetry_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add_new[] =
{ { "0Geometry Elementary Add New", NULL } ,
{ "Parameter", (Fl_Callback *)geometry_elementary_add_new_parameter_cb } ,
{ "Point", (Fl_Callback *)geometry_elementary_add_new_point_cb } ,
{ "Line", (Fl_Callback *)geometry_elementary_add_new_line_cb } ,
{ "Spline", (Fl_Callback *)geometry_elementary_add_new_spline_cb } ,
{ "B-Spline", (Fl_Callback *)geometry_elementary_add_new_bspline_cb } ,
{ "Circle", (Fl_Callback *)geometry_elementary_add_new_circle_cb } ,
{ "Ellipse", (Fl_Callback *)geometry_elementary_add_new_ellipse_cb } ,
{ "Plane surface", (Fl_Callback *)geometry_elementary_add_new_planesurface_cb } ,
{ "Ruled surface", (Fl_Callback *)geometry_elementary_add_new_ruledsurface_cb } ,
{ "Volume", (Fl_Callback *)geometry_elementary_add_new_volume_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add_translate[] =
{ { "0Geometry Elementary Add Translate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_add_translate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_add_translate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_add_translate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add_rotate[] =
{ { "0Geometry Elementary Add Rotate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_add_rotate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_add_rotate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_add_rotate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add_scale[] =
{ { "0Geometry Elementary Add Scale", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_add_scale_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_add_scale_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_add_scale_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_add_symmetry[] =
{ { "0Geometry Elementary Add Symmetry", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_add_symmetry_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_add_symmetry_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_add_symmetry_surface_cb } ,
{ NULL }
}; Context_Item menu_geometry_elementary_translate[] =
{ { "0Geometry Elementary Translate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_translate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_translate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_translate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_rotate[] =
{ { "0Geometry Elementary Rotate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_rotate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_rotate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_rotate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_scale[] =
{ { "0Geometry Elementary Scale", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_scale_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_scale_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_scale_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_symmetry[] =
{ { "0Geometry Elementary Symmetry", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_symmetry_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_symmetry_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_symmetry_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_extrude[] =
{ { "0Geometry Elementary Extrude", NULL } ,
{ "Translate", (Fl_Callback *)geometry_elementary_extrude_translate_cb } ,
{ "Rotate", (Fl_Callback *)geometry_elementary_extrude_rotate_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_extrude_translate[] =
{ { "0Geometry Elementary Extrude Translate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_extrude_translate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_extrude_translate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_extrude_translate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_extrude_rotate[] =
{ { "0Geometry Elementary Extrude Rotate", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_extrude_rotate_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_extrude_rotate_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_extrude_rotate_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_elementary_delete[] =
{ { "0Geometry Elementary Delete", NULL } ,
{ "Point", (Fl_Callback *)geometry_elementary_delete_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_elementary_delete_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_elementary_delete_surface_cb } ,
{ NULL }
};
Context_Item menu_geometry_physical[] =
{ { "0Geometry Physical", NULL } ,
{ "Add", (Fl_Callback *)geometry_physical_add_cb } ,
{ NULL }
};
Context_Item menu_geometry_physical_add[] =
{ { "0Geometry Physical Add", NULL } ,
{ "Point", (Fl_Callback *)geometry_physical_add_point_cb } ,
{ "Curve", (Fl_Callback *)geometry_physical_add_curve_cb } ,
{ "Surface", (Fl_Callback *)geometry_physical_add_surface_cb } ,
{ "Volume", (Fl_Callback *)geometry_physical_add_volume_cb } ,
{ NULL }
};
Context_Item menu_mesh[] = { { "1Mesh", NULL } ,
{ "Define", (Fl_Callback *)mesh_define_cb } ,
{ "1D", (Fl_Callback *)mesh_1d_cb } ,
{ "2D", (Fl_Callback *)mesh_2d_cb } ,
{ "3D", (Fl_Callback *)mesh_3d_cb } ,
{ "Save", (Fl_Callback *)mesh_save_cb } ,
// this one is confusing for beginners -> "Save (No Physical)" ??
//{ "Save All", (Fl_Callback *)mesh_save_all_cb } ,
{ NULL }
};
Context_Item menu_mesh_define[] =
{ { "1Mesh Define", NULL } ,
{ "Length", (Fl_Callback *)mesh_define_length_cb } ,
{ "Recombine", (Fl_Callback *)mesh_define_recombine_cb } ,
{ "Transfinite", (Fl_Callback *)mesh_define_transfinite_cb } ,
{ NULL }
};
Context_Item menu_mesh_define_transfinite[] =
{ { "1Mesh Define Transfinite", NULL } ,
{ "Line", (Fl_Callback *)mesh_define_transfinite_line_cb } ,
{ "Surface", (Fl_Callback *)mesh_define_transfinite_surface_cb } ,
{ "Volume", (Fl_Callback *)mesh_define_transfinite_volume_cb } ,
{ NULL }
};
// should create MAXSOLVERS items...
Context_Item menu_solver[] =
{ { "2Solver", NULL } ,
{ "Solver 0", (Fl_Callback *)solver_cb , (void*)0} ,
{ "Solver 1", (Fl_Callback *)solver_cb , (void*)1} ,
{ "Solver 2", (Fl_Callback *)solver_cb , (void*)2} ,
{ "Solver 3", (Fl_Callback *)solver_cb , (void*)3} ,
{ "Solver 4", (Fl_Callback *)solver_cb , (void*)4} ,
{ NULL } };
Context_Item menu_post[] =
{ { "3Post-processing", NULL } ,
{ NULL } };
// Definition of global shortcuts
int GUI::global_shortcuts(int event){
int i, j;
// we only handle shortcuts here
if(event != FL_SHORTCUT) return 0 ;
if(Fl::test_shortcut(FL_SHIFT+FL_Escape) ||
Fl::test_shortcut(FL_CTRL+FL_Escape) ||
Fl::test_shortcut(FL_ALT+FL_Escape)){
return 1;
}
if(Fl::test_shortcut('0') || Fl::test_shortcut(FL_Escape)){
geometry_reload_cb(0,0);
mod_geometry_cb(0,0);
return 1;
}
#if (FL_MAJOR_VERSION == 2)
else if(Fl::test_shortcut('1') || Fl::test_shortcut(FL_F(1))){
#else
else if(Fl::test_shortcut('1') || Fl::test_shortcut(FL_F+1)){
#endif
mesh_1d_cb(0,0);
mod_mesh_cb(0,0);
return 1;
}
#if (FL_MAJOR_VERSION == 2)
else if(Fl::test_shortcut('1') || Fl::test_shortcut(FL_F(2))){
#else else if(Fl::test_shortcut('2') || Fl::test_shortcut(FL_F+2)){
#endif
mesh_2d_cb(0,0);
mod_mesh_cb(0,0);
return 1;
}
#if (FL_MAJOR_VERSION == 2)
else if(Fl::test_shortcut('1') || Fl::test_shortcut(FL_F(3))){
#else
else if(Fl::test_shortcut('3') || Fl::test_shortcut(FL_F+3)){
#endif
mesh_3d_cb(0,0);
mod_mesh_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('g')){
mod_geometry_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('m')){
mod_mesh_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('s')){
mod_solver_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('p')){
mod_post_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('b')){
mod_back_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('f')){
mod_forward_cb(0,0);
return 1;
}
else if(Fl::test_shortcut('e')){
end_selection = 1;
return 1;
}
else if(Fl::test_shortcut('q')){
quit_selection = 1;
return 1;
}
else if(Fl::test_shortcut(FL_CTRL+FL_SHIFT+'d')){
opt_post_anim_delay(0,GMSH_SET|GMSH_GUI,opt_post_anim_delay(0,GMSH_GET,0) + 0.01);
return 1;
}
else if(Fl::test_shortcut(FL_SHIFT+'d')){
opt_post_anim_delay(0,GMSH_SET|GMSH_GUI,opt_post_anim_delay(0,GMSH_GET,0) - 0.01);
return 1;
}
else if(Fl::test_shortcut(FL_CTRL+'z')){
g_window->iconize() ;
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'f')){
opt_general_fast_redraw(0,GMSH_SET|GMSH_GUI,!opt_general_fast_redraw(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'b')){
opt_post_scales(0,GMSH_SET|GMSH_GUI,!opt_post_scales(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'o')){ opt_general_orthographic(0,GMSH_SET|GMSH_GUI,!opt_general_orthographic(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'c')){
opt_general_color_scheme(0,GMSH_SET|GMSH_GUI,opt_general_color_scheme(0,GMSH_GET,0)+1);
opt_geometry_color_scheme(0,GMSH_SET|GMSH_GUI,opt_geometry_color_scheme(0,GMSH_GET,0)+1);
opt_mesh_color_scheme(0,GMSH_SET|GMSH_GUI,opt_mesh_color_scheme(0,GMSH_GET,0)+1);
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'d')){
opt_mesh_aspect(0,GMSH_SET|GMSH_GUI,opt_mesh_aspect(0,GMSH_GET,0)+1);
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'x')){
status_xyz1p_cb(0,(void*)0);
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'y')){
status_xyz1p_cb(0,(void*)1);
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'z')){
status_xyz1p_cb(0,(void*)2);
return 1;
}
else if(Fl::test_shortcut(FL_ALT+FL_SHIFT+'a')){
opt_general_axes(0,GMSH_SET|GMSH_GUI,!opt_general_axes(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'a')){
opt_general_small_axes(0,GMSH_SET|GMSH_GUI,!opt_general_small_axes(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'p')){
opt_geometry_points(0,GMSH_SET|GMSH_GUI,!opt_geometry_points(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'l')){
opt_geometry_lines(0,GMSH_SET|GMSH_GUI,!opt_geometry_lines(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'s')){
opt_geometry_surfaces(0,GMSH_SET|GMSH_GUI,!opt_geometry_surfaces(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'v')){
opt_geometry_volumes(0,GMSH_SET|GMSH_GUI,!opt_geometry_volumes(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+FL_SHIFT+'p')){
opt_mesh_points(0,GMSH_SET|GMSH_GUI,!opt_mesh_points(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+FL_SHIFT+'l')){
opt_mesh_lines(0,GMSH_SET|GMSH_GUI,!opt_mesh_lines(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+FL_SHIFT+'s')){
opt_mesh_surfaces(0,GMSH_SET|GMSH_GUI,!opt_mesh_surfaces(0,GMSH_GET,0)); redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+FL_SHIFT+'v')){
opt_mesh_volumes(0,GMSH_SET|GMSH_GUI,!opt_mesh_volumes(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'m')){
opt_mesh_points(0,GMSH_SET|GMSH_GUI,!opt_mesh_points(0,GMSH_GET,0));
opt_mesh_lines(0,GMSH_SET|GMSH_GUI,!opt_mesh_lines(0,GMSH_GET,0));
opt_mesh_surfaces(0,GMSH_SET|GMSH_GUI,!opt_mesh_surfaces(0,GMSH_GET,0));
opt_mesh_volumes(0,GMSH_SET|GMSH_GUI,!opt_mesh_volumes(0,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'t')){
for(i=0 ; i<List_Nbr(CTX.post.list) ; i++){
if(opt_view_visible(i,GMSH_GET,0)){
j = (int)opt_view_intervals_type(i, GMSH_GET, 0);
opt_view_intervals_type(i, GMSH_SET|GMSH_GUI,
(j == DRAW_POST_ISO) ? DRAW_POST_DISCRETE :
(j == DRAW_POST_DISCRETE) ? DRAW_POST_CONTINUOUS :
DRAW_POST_ISO);
}
}
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'n')){
for(i=0 ; i<List_Nbr(CTX.post.list) ; i++)
if(opt_view_visible(i,GMSH_GET,0))
opt_view_draw_strings(i, GMSH_SET|GMSH_GUI,!opt_view_draw_strings(i,GMSH_GET,0));
redraw_opengl();
return 1;
}
else if(Fl::test_shortcut(FL_ALT+'h')){
static int show = 0;
for(i=0 ; i<List_Nbr(CTX.post.list) ; i++)
opt_view_visible(i, GMSH_SET|GMSH_GUI, show);
redraw_opengl();
show = !show;
return 1;
}
else if(arrow_shortcuts()){
return 1;
}
return 0;
}
// Test the arrow shortcuts (this is not in the global_shortcuts)
// since it is used elsewhere (where we want to override widget
// navigation: necessary since FLTK>=1.1)
int GUI::arrow_shortcuts(){
if(Fl::test_shortcut(FL_Left)){
ManualPlay(1,-1);
return 1;
}
else if(Fl::test_shortcut(FL_Right)){
ManualPlay(1,1);
return 1;
}
else if(Fl::test_shortcut(FL_Up)){
ManualPlay(0,-1);
return 1;
}
else if(Fl::test_shortcut(FL_Down)){
ManualPlay(0,1); return 1;
}
return 0;
}
// The GUI constructor
GUI::GUI(int argc, char **argv) {
int i;
// initialize static windows
m_window = NULL;
g_window = NULL;
gen_window = NULL;
geo_window = NULL;
mesh_window = NULL;
solver_window = NULL;
post_window = NULL;
stat_window = NULL;
msg_window = NULL;
vis_window = NULL;
about_window = NULL;
view_window = NULL;
context_geometry_window = NULL;
context_mesh_window = NULL;
// set X display
if(strlen(CTX.display)) Fl::display(CTX.display);
// add global shortcuts
Fl::add_handler(SetGlobalShortcut);
// set default font size
#if !((FL_MAJOR_VERSION == 2) && (FL_MINOR_VERSION == 0))
FL_NORMAL_SIZE = CTX.fontsize;
#endif
// handle themes and tooltip font size
#if !((FL_MAJOR_VERSION == 1 || FL_MAJOR_VERSION == 2) && (FL_MINOR_VERSION == 0))
if(strlen(CTX.theme)) Fl::scheme(CTX.theme);
Fl_Tooltip::size(CTX.fontsize);
#endif
// All static windows are contructed (even if some are not
// displayed) since the shortcuts should be valid even for hidden
// windows, and we don't want to test for widget existence every time
create_menu_window(argc, argv);
create_graphic_window(argc, argv);
#if defined(WIN32)
m_window->icon((char *)LoadImage(fl_display, MAKEINTRESOURCE(IDI_ICON),
IMAGE_ICON, 16, 16, LR_DEFAULTCOLOR));
#elif defined(__APPLE__)
/* ??? */
#else
fl_open_display();
Pixmap p1 = XCreateBitmapFromData(fl_display, DefaultRootWindow(fl_display),
g1_bits, g1_width, g1_height);
Pixmap p2 = XCreateBitmapFromData(fl_display, DefaultRootWindow(fl_display),
g2_bits, g2_width, g2_height);
m_window->icon((char *)p1);
g_window->icon((char *)p2);
#endif
m_window->show(1, argv);
g_window->show(1, argv);
create_general_options_window(); create_geometry_options_window();
create_mesh_options_window();
create_solver_options_window();
create_post_options_window();
create_view_options_window(-1);
create_message_window();
create_visibility_window();
create_about_window();
for(i=0; i<MAXSOLVERS; i++){
solver[i].window = NULL;
create_solver_window(i);
}
// Draw the scene
g_opengl_window->redraw();
}
// Run the GUI until no window is left
void GUI::run(){
Fl::run();
}
// Check (now) if any pending events and run them
void GUI::check(){
Fl::check();
}
// Wait for any events and run them
void GUI::wait(){
Fl::wait();
}
// Create the menu window
void GUI::add_post_plugins (Fl_Menu_Button *button , int iView){
char name[256],menuname[256];
for(GMSH_PluginManager::iter it = GMSH_PluginManager::Instance()->begin();
it != GMSH_PluginManager::Instance()->end();
++it){
GMSH_Plugin *p = (*it).second;
if(p->getType() == GMSH_Plugin::GMSH_POST_PLUGIN){
p->getName(name);
std::pair<int,GMSH_Plugin*> *pair = new std::pair<int,GMSH_Plugin*>(iView,p);
sprintf(menuname,"Plugins/%s...",name);
button->add(menuname, 0,(Fl_Callback *)view_options_plugin_cb, (void*)(pair), 0);
p->dialogBox = 0;
}
}
}
void GUI::create_menu_window(int argc, char **argv){
int i, y;
if(m_window){
m_window->show(1, argv);
return;
}
int width = 13*CTX.fontsize-CTX.fontsize/2-2 ;
// this is the initial height: no dynamic button is shown!
#if defined(__APPLE__) && defined(APPLE_USE_SYS_MENU)
MH = BH+6 ; // the menu bar is not in the application!
#else MH = BH + BH+6 ;
#endif
m_window = new Fl_Window(width,MH);
m_window->box(WINDOW_BOX);
m_window->label("Gmsh");
m_window->callback(file_quit_cb);
#if defined(__APPLE__) && defined(APPLE_USE_SYS_MENU)
m_menu_bar = new Fl_Sys_Menu_Bar(0,0,width,BH);
m_menu_bar->menu(m_menubar_table);
m_menu_bar->global();
Fl_Box *o = new Fl_Box(0,0,width,BH+6);
o->box(FL_UP_BOX);
y = 3;
#else
m_menu_bar = new Fl_Menu_Bar(0,0,width,BH);
m_menu_bar->menu(m_menubar_table);
m_menu_bar->box(FL_UP_BOX);
m_menu_bar->global();
Fl_Box *o = new Fl_Box(0,BH,width,BH+6);
o->box(FL_UP_BOX);
y = BH + 3;
#endif
m_navig_butt[0] = new Fl_Button(1,y,18,BH/2,"@<");
m_navig_butt[0]->labeltype(FL_SYMBOL_LABEL);
m_navig_butt[0]->labelsize(11);
m_navig_butt[0]->box(FL_FLAT_BOX);
m_navig_butt[0]->selection_color(FL_WHITE);
m_navig_butt[0]->callback(mod_back_cb);
m_navig_butt[1] = new Fl_Button(1,y+BH/2,18,BH/2,"@>");
m_navig_butt[1]->labeltype(FL_SYMBOL_LABEL);
m_navig_butt[1]->labelsize(11);
m_navig_butt[1]->box(FL_FLAT_BOX);
m_navig_butt[1]->selection_color(FL_WHITE);
m_navig_butt[1]->callback(mod_forward_cb);
#if !((FL_MAJOR_VERSION == 1) && (FL_MINOR_VERSION == 0))
m_navig_butt[0]->tooltip("Go back in menu history");
m_navig_butt[1]->tooltip("Go forward in menu history");
#endif
m_module_butt = new Fl_Choice(19,y,width-24,BH);
m_module_butt->menu(m_module_table);
m_module_butt->box(FL_THIN_DOWN_BOX);
y = MH ;
for(i=0; i<NB_BUTT_MAX; i++){
m_push_butt[i] = new Fl_Button(0,y+i*BH,width,BH);
m_push_butt[i]->hide();
m_toggle_butt[i] = new Fl_Light_Button(0,y+i*BH,width,BH);
m_toggle_butt[i]->callback(view_toggle_cb, (void*)i);
m_toggle_butt[i]->hide();
#ifdef __APPLE__ // FIXME: is there a better way??
m_popup_butt[i] = new Fl_Menu_Button(0,y+i*BH,width,BH,"&Options");
#else
m_popup_butt[i] = new Fl_Menu_Button(0,y+i*BH,width,BH);
#endif
m_popup_butt[i]->type(Fl_Menu_Button::POPUP3);
m_popup_butt[i]->add("Reload/View", 0,
(Fl_Callback *)view_reload_cb, (void*)i, 0);
m_popup_butt[i]->add("Reload/All views", 0,
(Fl_Callback *)view_reload_all_cb, (void*)i, 0);
m_popup_butt[i]->add("Reload/All visible views", 0,
(Fl_Callback *)view_reload_visible_cb, (void*)i, 0);
m_popup_butt[i]->add("Remove/View", 0,
(Fl_Callback *)view_remove_cb, (void*)i, 0); m_popup_butt[i]->add("Remove/All views", 0,
(Fl_Callback *)view_remove_all_cb, (void*)i, 0);
m_popup_butt[i]->add("Remove/All visible views", 0,
(Fl_Callback *)view_remove_visible_cb, (void*)i, 0);
m_popup_butt[i]->add("Remove/All invisible views", 0,
(Fl_Callback *)view_remove_invisible_cb, (void*)i, 0);
m_popup_butt[i]->add("Duplicate/View without options", 0,
(Fl_Callback *)view_duplicate_cb, (void*)i, 0) ;
m_popup_butt[i]->add("Duplicate/View with options", 0,
(Fl_Callback *)view_duplicate_with_options_cb, (void*)i, 0) ;
m_popup_butt[i]->add("Save as/ASCII view...", 0,
(Fl_Callback *)view_save_ascii_cb, (void*)i, 0) ;
m_popup_butt[i]->add("Save as/Binary view...", 0,
(Fl_Callback *)view_save_binary_cb, (void*)i, 0) ;
add_post_plugins(m_popup_butt[i], i);
m_popup_butt[i]->add("Apply as background mesh", 0,
(Fl_Callback *)view_applybgmesh_cb, (void*)i, FL_MENU_DIVIDER);
m_popup_butt[i]->add("Options...", 0,
(Fl_Callback *)view_options_cb, (void*)i, 0);
m_popup_butt[i]->hide();
}
m_window->position(CTX.position[0],CTX.position[1]);
m_window->end();
}
// Dynamically set the height of the menu window
void GUI::set_menu_size(int nb_butt){
m_window->size(m_window->w(), MH + nb_butt*BH);
}
// Dynamically set the context
void GUI::set_context(Context_Item *menu_asked, int flag){
static int nb_back = 0, nb_forward = 0, init_context=0;
static Context_Item *menu_history[NB_HISTORY_MAX];
Context_Item *menu;
Post_View *v;
int i;
if(!init_context){
init_context = 1;
for(i=0 ; i<NB_HISTORY_MAX ; i++){
menu_history[i] = NULL ;
}
}
if(nb_back > NB_HISTORY_MAX-2) nb_back = 1; // we should do a circular list
if(flag == -1){
if(nb_back > 1){
nb_back--;
nb_forward++;
menu = menu_history[nb_back-1];
}
else return;
}
else if(flag == 1){
if(nb_forward > 0){
nb_back++;
nb_forward--;
menu = menu_history[nb_back-1];
}
else return;
}
else{
menu = menu_asked;
if(!nb_back || menu_history[nb_back-1] != menu){ menu_history[nb_back++] = menu;
}
nb_forward = 0;
}
int nb = 0;
if(menu[0].label[0] == '0') m_module_butt->value(0);
else if(menu[0].label[0] == '1') m_module_butt->value(1);
else if(menu[0].label[0] == '2') m_module_butt->value(2);
else if(menu[0].label[0] == '3') m_module_butt->value(3);
else {
Msg(WARNING, "Something is wrong in your dynamic context definition");
return;
}
Msg(STATUS2, menu[0].label+1);
switch(m_module_butt->value()){
case 3 : // post-processing contexts
for(i = 0 ; i < List_Nbr(CTX.post.list) ; i++) {
if(i == NB_BUTT_MAX) break;
nb++ ;
v = (Post_View*)List_Pointer(CTX.post.list,i);
m_push_butt[i]->hide();
m_toggle_butt[i]->show();
m_toggle_butt[i]->value(v->Visible);
m_toggle_butt[i]->label(v->Name);
m_popup_butt[i]->show();
}
for(i = List_Nbr(CTX.post.list) ; i < NB_BUTT_MAX ; i++) {
m_push_butt[i]->hide();
m_toggle_butt[i]->hide();
m_popup_butt[i]->hide();
}
break;
default : // geometry, mesh, solver contexts
if(m_module_butt->value() == 2){ //solver
// should handle MAXSOLVERS
menu[1].label = opt_solver_name0(0,GMSH_GET,0);
menu[2].label = opt_solver_name1(0,GMSH_GET,0);
menu[3].label = opt_solver_name2(0,GMSH_GET,0);
menu[4].label = opt_solver_name3(0,GMSH_GET,0);
menu[5].label = opt_solver_name4(0,GMSH_GET,0);
for(i=0 ; i<MAXSOLVERS ; i++){
if(!strlen(menu[i+1].label)) menu[i+1].label = NULL;
}
}
for(i=0 ; i < NB_BUTT_MAX ; i++){
m_toggle_butt[i]->hide();
m_popup_butt[i]->hide();
if(menu[i+1].label){
m_push_butt[i]->label(menu[i+1].label);
m_push_butt[i]->callback(menu[i+1].callback,menu[i+1].arg);
m_push_butt[i]->redraw();
m_push_butt[i]->show();
nb++;
}
else
break;
}
for(i=nb ; i<NB_BUTT_MAX ; i++){
m_toggle_butt[i]->hide();
m_popup_butt[i]->hide();
m_push_butt[i]->hide();
}
break ;
}
set_menu_size(nb);
}
int GUI::get_context(){
return m_module_butt->value();
}
// Create the graphic window
void GUI::create_graphic_window(int argc, char **argv){
int i, x;
if(g_window){
g_window->show(1, argv);
return;
}
int sh = 2*CTX.fontsize-4; // status bar height
int sw = CTX.fontsize+4; //status button width
int width = CTX.viewport[2]-CTX.viewport[0];
int glheight = CTX.viewport[3]-CTX.viewport[1];
int height = glheight + sh;
g_window = new Fl_Window(width, height);
g_window->callback(file_quit_cb);
// bottom button bar
Fl_Box *bottom = new Fl_Box(0,glheight,width,sh);
bottom->box(FL_THIN_UP_BOX);
x = 2;
g_status_butt[0] = new Fl_Button(x,glheight+2,sw,sh-4,"X"); x+=sw;
g_status_butt[0]->callback(status_xyz1p_cb, (void*)0);
g_status_butt[1] = new Fl_Button(x,glheight+2,sw,sh-4,"Y"); x+=sw;
g_status_butt[1]->callback(status_xyz1p_cb, (void*)1);
g_status_butt[2] = new Fl_Button(x,glheight+2,sw,sh-4,"Z"); x+=sw;
g_status_butt[2]->callback(status_xyz1p_cb, (void*)2);
g_status_butt[3] = new Fl_Button(x,glheight+2,2*CTX.fontsize,sh-4,"1:1"); x+=2*CTX.fontsize;
g_status_butt[3]->callback(status_xyz1p_cb, (void*)3);
g_status_butt[4] = new Fl_Button(x,glheight+2,sw,sh-4,"?"); x+=sw;
g_status_butt[4]->callback(status_xyz1p_cb, (void*)4);
g_status_butt[5] = new Fl_Button(x,glheight+2,sw,sh-4); x+=sw;
g_status_butt[5]->callback(status_rewind_cb);
rewind_bmp = new Fl_Bitmap(rewind_bits,rewind_width,rewind_height);
rewind_bmp->label(g_status_butt[5]);
g_status_butt[5]->deactivate();
g_status_butt[6] = new Fl_Button(x,glheight+2,sw,sh-4); x+=sw;
g_status_butt[6]->callback(status_play_cb);
start_bmp = new Fl_Bitmap(start_bits,start_width,start_height);
start_bmp->label(g_status_butt[6]);
stop_bmp = new Fl_Bitmap(stop_bits,stop_width,stop_height);
g_status_butt[6]->deactivate();
for(i = 0 ; i<7 ; i++){
g_status_butt[i]->box(FL_FLAT_BOX);
g_status_butt[i]->selection_color(FL_WHITE);
g_status_butt[i]->align(FL_ALIGN_CENTER|FL_ALIGN_INSIDE|FL_ALIGN_CLIP);
}
g_status_label[0] = new Fl_Box(x,glheight+2,(width-x)/3,sh-4);
g_status_label[1] = new Fl_Box(x+(width-x)/3,glheight+2,(width-x)/3,sh-4);
g_status_label[2] = new Fl_Box(x+2*(width-x)/3,glheight+2,(width-x)/3-2,sh-4);
for(i = 0 ; i<3 ; i++){
g_status_label[i]->box(FL_FLAT_BOX);
g_status_label[i]->align(FL_ALIGN_LEFT|FL_ALIGN_INSIDE|FL_ALIGN_CLIP);
}
#if !((FL_MAJOR_VERSION == 1) && (FL_MINOR_VERSION == 0))
g_status_butt[0]->tooltip("Set X view (Y=Z=0)");
g_status_butt[1]->tooltip("Set Y view (X=Z=0)");
g_status_butt[2]->tooltip("Set Z view (X=Y=0)");
g_status_butt[3]->tooltip("Set unit scale");
g_status_butt[4]->tooltip("Show current options");
g_status_butt[5]->tooltip("Rewind animation");
g_status_butt[6]->tooltip("Play/pause animation");
#endif
// dummy resizable box
Dummy_Box *resize_box = new Dummy_Box(x,0,width-x,glheight);
g_window->resizable(resize_box);
// opengl window
g_opengl_window = new Opengl_Window(0,0,width,glheight);
if(!opt_general_double_buffer(0,GMSH_GET,0)){
Msg(INFO, "Setting OpenGL visual to single buffered");
g_opengl_window->mode(FL_RGB | FL_DEPTH | FL_SINGLE);
}
g_opengl_window->end();
g_window->position(CTX.gl_position[0],CTX.gl_position[1]);
g_window->end();
}
// Set the size of the graphical window
void GUI::set_size(int new_w, int new_h){
g_window->size(new_w,new_h+g_window->h()-g_opengl_window->h());
}
// Set graphic window title
void GUI::set_title(char *str){
g_window->label(str);
}
// Set animation button
void GUI::set_anim_buttons(int mode){
if(mode){
g_status_butt[6]->callback(status_play_cb);
start_bmp->label(g_status_butt[6]);
}
else{
g_status_butt[6]->callback(status_pause_cb);
stop_bmp->label(g_status_butt[6]);
}
}
void GUI::check_anim_buttons(){
int i, play=0;
if(CTX.post.anim_cycle){
play = 1;
}
else{
for(i=0 ; i<List_Nbr(CTX.post.list) ; i++){
if(((Post_View*)List_Pointer(CTX.post.list,i))->NbTimeStep > 1){
play = 1 ;
break ;
}
}
}
if(!play){
g_status_butt[5]->deactivate();
g_status_butt[6]->deactivate();
} else{
g_status_butt[5]->activate();
g_status_butt[6]->activate();
}
}
// Set the status messages
void GUI::set_status(char *msg, int num){
g_status_label[num]->label(msg);
g_status_label[num]->redraw();
}
// set the current drawing context
void GUI::make_opengl_current(){
g_opengl_window->make_current();
}
void GUI::make_overlay_current(){
g_opengl_window->make_overlay_current();
}
// Draw the opengl window
void GUI::redraw_opengl(){
g_opengl_window->redraw();
}
// Draw the opengl overlay window
void GUI::redraw_overlay(){
g_opengl_window->redraw_overlay();
}
// Create the window for general options
void GUI::create_general_options_window(){
int i;
if(gen_window){
gen_window->show();
return;
}
int width = 25*CTX.fontsize;
int height = 5*WB+12*BH ;
int BW = width-4*WB;
gen_window = new Fl_Window(width,height);
gen_window->box(WINDOW_BOX);
gen_window->label("General options");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Display");
gen_butt[0] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Show moving axes");
gen_butt[1] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Show small axes");
gen_butt[2] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW, BH, "Enable fast redraw");
gen_butt[3] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW, BH, "Enable double buffering");
gen_butt[4] = new Fl_Check_Button(2*WB, 2*WB+5*BH, BW, BH, "Use display lists");
gen_butt[5] = new Fl_Check_Button(2*WB, 2*WB+6*BH, BW, BH, "Enable alpha blending");
gen_butt[6] = new Fl_Check_Button(2*WB, 2*WB+7*BH, BW, BH, "Use trackball rotation mode");
for(i=0 ; i<7 ; i++){
gen_butt[i]->type(FL_TOGGLE_BUTTON);
gen_butt[i]->down_box(TOGGLE_BOX);
gen_butt[i]->selection_color(TOGGLE_COLOR);
}
gen_butt[13] = new Fl_Check_Button(2*WB, 2*WB+8*BH, BW, BH, "Show tooltips"); gen_butt[13]->type(FL_TOGGLE_BUTTON);
gen_butt[13]->down_box(TOGGLE_BOX);
gen_butt[13]->selection_color(TOGGLE_COLOR);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Output");
gen_butt[7] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Print messages on terminal");
gen_butt[8] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Save session information on exit");
gen_butt[9] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW, BH, "Save options on exit");
for(i=7 ; i<10 ; i++){
gen_butt[i]->type(FL_TOGGLE_BUTTON);
gen_butt[i]->down_box(TOGGLE_BOX);
gen_butt[i]->selection_color(TOGGLE_COLOR);
}
gen_butt[14] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW, BH, "Ask confirmation before overwriting files");
gen_butt[14]->type(FL_TOGGLE_BUTTON);
gen_butt[14]->down_box(TOGGLE_BOX);
gen_butt[14]->selection_color(TOGGLE_COLOR);
gen_value[5] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW, BH, "Message verbosity");
gen_value[5]->minimum(0);
gen_value[5]->maximum(10);
gen_value[5]->step(1);
gen_value[5]->align(FL_ALIGN_RIGHT);
gen_input[0] = new Fl_Input(2*WB, 2*WB+6*BH, IW, BH, "Default file name");
gen_input[1] = new Fl_Input(2*WB, 2*WB+7*BH, IW, BH, "Temporary file");
gen_input[2] = new Fl_Input(2*WB, 2*WB+8*BH, IW, BH, "Error file");
gen_input[3] = new Fl_Input(2*WB, 2*WB+9*BH, IW, BH, "Option file");
gen_input[4] = new Fl_Input(2*WB, 2*WB+10*BH, IW, BH, "Text editor command");
for(i=0 ; i<5 ; i++){
gen_input[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Aspect");
o->hide();
gen_butt[10] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Orthographic projection");
gen_butt[11] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Perspective projection");
for(i=10 ; i<12 ; i++){
gen_butt[i]->type(FL_RADIO_BUTTON);
gen_butt[i]->down_box(RADIO_BOX);
gen_butt[i]->selection_color(RADIO_COLOR);
}
gen_value[6] = new Fl_Value_Input(2*WB, 2*WB+3*BH, IW, BH, "Point size");
gen_value[6]->minimum(0.1);
gen_value[6]->maximum(50);
gen_value[6]->step(0.1);
gen_value[7] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Line width");
gen_value[7]->minimum(0.1);
gen_value[7]->maximum(50);
gen_value[7]->step(0.1);
for(i=6 ; i<= 7 ; i++){
gen_value[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Colors");
o->hide();
gen_value[0] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Predefined color scheme");
gen_value[0]->minimum(0);
gen_value[0]->maximum(2);
gen_value[0]->step(1);
gen_value[0]->align(FL_ALIGN_RIGHT);
gen_value[0]->callback(opt_general_color_scheme_cb);
Fl_Scroll* s = new Fl_Scroll(2*WB, 3*WB+2*BH, IW+20, height-3*WB-4*BH);
i = 0;
while(GeneralOptions_Color[i].str){
gen_col[i] = new Fl_Button(2*WB, 3*WB+(2+i)*BH, IW, BH, GeneralOptions_Color[i].str);
gen_col[i]->callback(color_cb, (void*)GeneralOptions_Color[i].function) ;
i++;
}
s->end();
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Light");
o->hide();
gen_value[1] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Material shininess");
gen_value[1]->minimum(0);
gen_value[1]->maximum(10);
gen_value[1]->step(0.1);
gen_butt[12] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Moving light");
gen_butt[12]->type(FL_TOGGLE_BUTTON);
gen_butt[12]->down_box(TOGGLE_BOX);
gen_butt[12]->selection_color(TOGGLE_COLOR);
gen_value[2] = new Fl_Value_Input(2*WB, 2*WB+3*BH, IW, BH, "Light position X");
gen_value[2]->minimum(-1);
gen_value[2]->maximum(1);
gen_value[2]->step(0.01);
gen_value[3] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Light position Y");
gen_value[3]->minimum(-1);
gen_value[3]->maximum(1);
gen_value[3]->step(0.01);
gen_value[4] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW, BH, "Light position Z");
gen_value[4]->minimum(-1);
gen_value[4]->maximum(1);
gen_value[4]->step(0.01);
for(i=1 ; i<5 ; i++){
gen_value[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
o->end();
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_general_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)gen_window);
}
if(CTX.center_windows)
gen_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
gen_window->end();
}
// Create the window for geometry options
void GUI::create_geometry_options_window(){
int i;
if(geo_window){
geo_window->show();
return;
}
int width = 25*CTX.fontsize;
int height = 5*WB+10*BH ; int BW = width-4*WB;
geo_window = new Fl_Window(width,height);
geo_window->box(WINDOW_BOX);
geo_window->label("Geometry options");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "General");
o->hide();
geo_butt[8] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Auto coherence (suppress duplicates)");
geo_butt[8]->type(FL_TOGGLE_BUTTON);
geo_butt[8]->down_box(TOGGLE_BOX);
geo_butt[8]->selection_color(TOGGLE_COLOR);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Visibility");
geo_butt[0] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW/2-WB, BH, "Points");
geo_butt[1] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW/2-WB, BH, "Curves");
geo_butt[2] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW/2-WB, BH, "Surfaces");
geo_butt[3] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW/2-WB, BH, "Volumes");
geo_butt[4] = new Fl_Check_Button(width/2, 2*WB+1*BH, BW/2-WB, BH, "Point numbers");
geo_butt[5] = new Fl_Check_Button(width/2, 2*WB+2*BH, BW/2-WB, BH, "Curve numbers");
geo_butt[6] = new Fl_Check_Button(width/2, 2*WB+3*BH, BW/2-WB, BH, "Surface numbers");
geo_butt[7] = new Fl_Check_Button(width/2, 2*WB+4*BH, BW/2-WB, BH, "Volume numbers");
for(i=0 ; i<8 ; i++){
geo_butt[i]->type(FL_TOGGLE_BUTTON);
geo_butt[i]->down_box(TOGGLE_BOX);
geo_butt[i]->selection_color(TOGGLE_COLOR);
}
geo_value[0] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW, BH, "Normals");
geo_value[0]->minimum(0);
geo_value[0]->maximum(100);
geo_value[0]->step(0.1);
geo_value[1] = new Fl_Value_Input(2*WB, 2*WB+6*BH, IW, BH, "Tangents");
geo_value[1]->minimum(0);
geo_value[1]->maximum(100);
geo_value[1]->step(0.1);
for(i=0 ; i<2 ; i++){
geo_value[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Aspect");
o->hide();
geo_value[3] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Point size");
geo_value[3]->minimum(0.1);
geo_value[3]->maximum(50);
geo_value[3]->step(0.1);
geo_value[4] = new Fl_Value_Input(2*WB, 2*WB+2*BH, IW, BH, "Line width");
geo_value[4]->minimum(0.1);
geo_value[4]->maximum(50);
geo_value[4]->step(0.1);
for(i=3 ; i<= 4 ; i++){
geo_value[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Colors");
o->hide();
geo_value[2] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Predefined color scheme");
geo_value[2]->minimum(0);
geo_value[2]->maximum(2);
geo_value[2]->step(1);
geo_value[2]->align(FL_ALIGN_RIGHT);
geo_value[2]->callback(opt_geometry_color_scheme_cb);
Fl_Scroll* s = new Fl_Scroll(2*WB, 3*WB+2*BH, IW+20, height-3*WB-4*BH);
i = 0;
while(GeometryOptions_Color[i].str){
geo_col[i] = new Fl_Button(2*WB, 3*WB+(2+i)*BH, IW, BH, GeometryOptions_Color[i].str);
geo_col[i]->callback(color_cb, (void*)GeometryOptions_Color[i].function) ;
i++;
}
s->end();
o->end();
}
o->end();
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_geometry_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)geo_window);
}
if(CTX.center_windows)
geo_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
geo_window->end();
}
// Create the window for mesh options
void GUI::create_mesh_options_window(){
int i;
if(mesh_window){
mesh_window->show();
return;
}
int width = 25*CTX.fontsize;
int height = 5*WB+10*BH ;
int BW = width-4*WB;
mesh_window = new Fl_Window(width,height);
mesh_window->box(WINDOW_BOX);
mesh_window->label("Mesh options");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "General");
o->hide();
mesh_value[0] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Number of smoothing steps");
mesh_value[0]->minimum(0);
mesh_value[0]->maximum(100);
mesh_value[0]->step(1);
mesh_value[1] = new Fl_Value_Input(2*WB, 2*WB+2*BH, IW, BH, "Mesh scaling factor");
mesh_value[1]->minimum(0.001);
mesh_value[1]->maximum(1000);
mesh_value[1]->step(0.001);
mesh_value[2] = new Fl_Value_Input(2*WB, 2*WB+3*BH, IW, BH, "Characteristic length factor");
mesh_value[2]->minimum(0.001);
mesh_value[2]->maximum(1000);
mesh_value[2]->step(0.001);
mesh_value[3] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Random perturbation factor");
mesh_value[3]->minimum(1.e-6);
mesh_value[3]->maximum(1.e-1);
mesh_value[3]->step(1.e-6);
for(i = 0 ; i<4 ; i++){ mesh_value[i]->align(FL_ALIGN_RIGHT);
}
mesh_butt[3] = new Fl_Check_Button(2*WB, 2*WB+5*BH, BW, BH, "Second order elements");
mesh_butt[3]->deactivate();//2nd order elements do not work. Disable the graphical option.
mesh_butt[3]->type(FL_TOGGLE_BUTTON);
mesh_butt[3]->down_box(TOGGLE_BOX);
mesh_butt[3]->selection_color(TOGGLE_COLOR);
mesh_butt[5] = new Fl_Check_Button(2*WB, 2*WB+6*BH, BW, BH, "Constrain background mesh");
mesh_butt[5]->type(FL_TOGGLE_BUTTON);
mesh_butt[5]->down_box(TOGGLE_BOX);
mesh_butt[5]->selection_color(TOGGLE_COLOR);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "2D");
o->hide();
mesh_butt[0] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Old isotropic algorithm");
mesh_butt[1] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "New isotropic algorithm");
mesh_butt[2] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW, BH, "Anisotropic algorithm");
for(i=0 ; i<3 ; i++){
mesh_butt[i]->type(FL_RADIO_BUTTON);
mesh_butt[i]->down_box(RADIO_BOX);
mesh_butt[i]->selection_color(RADIO_COLOR);
}
mesh_butt[4] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW, BH, "Interactive");
mesh_butt[4]->type(FL_TOGGLE_BUTTON);
mesh_butt[4]->down_box(TOGGLE_BOX);
mesh_butt[4]->selection_color(TOGGLE_COLOR);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Visibility");
mesh_butt[6] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW/2-WB, BH, "Points");
mesh_butt[7] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW/2-WB, BH, "Lines");
mesh_butt[8] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW/2-WB, BH, "Surfaces");
mesh_butt[9] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW/2-WB, BH, "Volumes");
mesh_butt[10] = new Fl_Check_Button(width/2, 2*WB+1*BH, BW/2-WB, BH, "Point numbers");
mesh_butt[11] = new Fl_Check_Button(width/2, 2*WB+2*BH, BW/2-WB, BH, "Line numbers");
mesh_butt[12] = new Fl_Check_Button(width/2, 2*WB+3*BH, BW/2-WB, BH, "Surface numbers");
mesh_butt[13] = new Fl_Check_Button(width/2, 2*WB+4*BH, BW/2-WB, BH, "Volume numbers");
for(i=6 ; i<14 ; i++){
mesh_butt[i]->type(FL_TOGGLE_BUTTON);
mesh_butt[i]->down_box(TOGGLE_BOX);
mesh_butt[i]->selection_color(TOGGLE_COLOR);
}
mesh_value[4] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW/2, BH);
mesh_value[4]->minimum(0);
mesh_value[4]->maximum(1);
mesh_value[4]->step(0.001);
mesh_value[5] = new Fl_Value_Input(2*WB+IW/2, 2*WB+5*BH, IW/2, BH, "Quality range");
mesh_value[5]->minimum(0);
mesh_value[5]->maximum(1);
mesh_value[5]->step(0.001);
mesh_value[6] = new Fl_Value_Input(2*WB, 2*WB+6*BH, IW/2, BH);
mesh_value[7] = new Fl_Value_Input(2*WB+IW/2, 2*WB+6*BH, IW/2, BH, "Size range");
mesh_value[8] = new Fl_Value_Input(2*WB, 2*WB+7*BH, IW, BH, "Normals");
mesh_value[8]->minimum(0);
mesh_value[8]->maximum(100);
mesh_value[8]->step(0.1);
for(i=4 ; i<9 ; i++){
mesh_value[i]->align(FL_ALIGN_RIGHT);
}
mesh_value[13] = new Fl_Value_Input(2*WB, 2*WB+8*BH, IW, BH, "Tangents");
mesh_value[13]->minimum(0);
mesh_value[13]->maximum(100);
mesh_value[13]->step(0.1);
mesh_value[13]->align(FL_ALIGN_RIGHT);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Aspect");
o->hide();
mesh_butt[14] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Wireframe");
mesh_butt[15] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Hidden lines");
mesh_butt[16] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW, BH, "Solid");
for(i=14 ; i<17 ; i++){
mesh_butt[i]->type(FL_RADIO_BUTTON);
mesh_butt[i]->down_box(RADIO_BOX);
mesh_butt[i]->selection_color(RADIO_COLOR);
}
mesh_value[9] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Explode elements");
mesh_value[9]->minimum(0);
mesh_value[9]->maximum(1);
mesh_value[9]->step(0.01);
mesh_value[10] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW, BH, "Point size");
mesh_value[10]->minimum(0.1);
mesh_value[10]->maximum(50);
mesh_value[10]->step(0.1);
mesh_value[11] = new Fl_Value_Input(2*WB, 2*WB+6*BH, IW, BH, "Line width");
mesh_value[11]->minimum(0.1);
mesh_value[11]->maximum(50);
mesh_value[11]->step(0.1);
for(i=9 ; i<= 11 ; i++){
mesh_value[i]->align(FL_ALIGN_RIGHT);
}
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Colors");
o->hide();
mesh_butt[17] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Switch color by entity");
mesh_butt[17]->type(FL_TOGGLE_BUTTON);
mesh_butt[17]->down_box(TOGGLE_BOX);
mesh_butt[17]->selection_color(TOGGLE_COLOR);
mesh_value[12] = new Fl_Value_Input(2*WB, 2*WB+2*BH, IW, BH, "Predefined color scheme");
mesh_value[12]->minimum(0);
mesh_value[12]->maximum(2);
mesh_value[12]->step(1);
mesh_value[12]->align(FL_ALIGN_RIGHT);
mesh_value[12]->callback(opt_mesh_color_scheme_cb);
Fl_Scroll* s = new Fl_Scroll(2*WB, 3*WB+3*BH, IW+20, height-3*WB-5*BH);
i = 0;
while(MeshOptions_Color[i].str){
mesh_col[i] = new Fl_Button(2*WB, 3*WB+(3+i)*BH, IW, BH, MeshOptions_Color[i].str);
mesh_col[i]->callback(color_cb, (void*)MeshOptions_Color[i].function) ;
i++;
}
s->end();
o->end();
}
o->end();
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_mesh_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel"); o->callback(cancel_cb, (void*)mesh_window);
}
if(CTX.center_windows)
mesh_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
mesh_window->end();
}
// Create the window for solver options
void GUI::create_solver_options_window(){
if(solver_window){
solver_window->show();
return;
}
int width = 20*CTX.fontsize;
int height = 5*WB+8*BH ;
solver_window = new Fl_Window(width,height);
solver_window->box(WINDOW_BOX);
solver_window->label("Solver options");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Solvers");
Fl_Box *text = new Fl_Box(FL_NO_BOX, 2*WB, 3*WB+1*BH, width-4*WB, 2*BH,
"There are no global solver options available yet.\n\n"
"To define your own solver interface, edit the option file.");
text->align(FL_ALIGN_LEFT|FL_ALIGN_TOP|FL_ALIGN_INSIDE|FL_ALIGN_WRAP);
/*
int BW = width-4*WB;
solver_butt[0] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Use Unix sockets");
solver_butt[0]->type(FL_TOGGLE_BUTTON);
solver_butt[0]->down_box(TOGGLE_BOX);
solver_butt[0]->selection_color(TOGGLE_COLOR);
*/
o->end();
}
o->end();
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_solver_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)solver_window);
}
if(CTX.center_windows)
solver_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
solver_window->end();
}
// Create the window for post-processing options
void GUI::create_post_options_window(){
int i;
if(post_window){
post_window->show(); return;
}
int width = 25*CTX.fontsize;
int height = 5*WB+10*BH ;
int BW = width-4*WB;
post_window = new Fl_Window(width,height);
post_window->box(WINDOW_BOX);
post_window->label("Post-processing options");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Views");
post_butt[0] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Independent views");
post_butt[1] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Apply next changes to all visible views");
post_butt[2] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW, BH, "Apply next changes to all views");
post_butt[3] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW, BH, "Force same options for all visible views");
post_butt[4] = new Fl_Check_Button(2*WB, 2*WB+5*BH, BW, BH, "Force same options for all views");
for(i=0 ; i<5 ; i++){
post_butt[i]->type(FL_RADIO_BUTTON);
post_butt[i]->down_box(RADIO_BOX);
post_butt[i]->selection_color(RADIO_COLOR);
}
Fl_Box *text = new Fl_Box(FL_NO_BOX, 2*WB, 3*WB+6*BH, width-4*WB, 2*BH,
#ifdef __APPLE__
"Individual view options are available by "
"pressing 'o' when the mouse is over the view "
"button in the post-processing menu");
#else
"Individual view options are available "
"by right-clicking on each view button "
"in the post-processing menu");
#endif
text->align(FL_ALIGN_LEFT|FL_ALIGN_TOP|FL_ALIGN_INSIDE|FL_ALIGN_WRAP);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Smoothing");
post_butt[5] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW, BH, "Smooth views during merge");
post_butt[5]->type(FL_TOGGLE_BUTTON);
post_butt[5]->down_box(TOGGLE_BOX);
post_butt[5]->selection_color(TOGGLE_COLOR);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Animation");
o->hide();
post_value[0] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Delay");
post_value[0]->minimum(0);
post_value[0]->maximum(10);
post_value[0]->step(0.01);
post_value[0]->align(FL_ALIGN_RIGHT);
post_butt[6] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW, BH, "Cycle through views instead of time steps");
post_butt[6]->type(FL_TOGGLE_BUTTON);
post_butt[6]->down_box(TOGGLE_BOX);
post_butt[6]->selection_color(TOGGLE_COLOR);
o->end();
}
o->end();
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_post_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)post_window); }
if(CTX.center_windows)
post_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
post_window->end();
}
// Create the window for the statistics
void GUI::create_statistics_window(){
int i, num=0;
if(stat_window){
if(!stat_window->shown()) set_statistics();
stat_window->show();
return;
}
int width = 25*CTX.fontsize;
int height = 5*WB+17*BH ;
stat_window = new Fl_Window(width,height);
stat_window->box(WINDOW_BOX);
stat_window->label("Statistics");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Geometry");
o->hide();
stat_value[num++] = new Fl_Output(2*WB, 2*WB+1*BH, IW, BH, "Points");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+2*BH, IW, BH, "Curves");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+3*BH, IW, BH, "Surfaces");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+4*BH, IW, BH, "Volumes");
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Mesh");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+1*BH, IW, BH, "Nodes on curves");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+2*BH, IW, BH, "Nodes on surfaces");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+3*BH, IW, BH, "Nodes in volumes");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+4*BH, IW, BH, "Triangles");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+5*BH, IW, BH, "Quadrangles");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+6*BH, IW, BH, "Tetrahedra");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+7*BH, IW, BH, "Hexahedra");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+8*BH, IW, BH, "Prisms");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+9*BH, IW, BH, "Pyramids");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+10*BH, IW, BH, "Time for 1D mesh");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+11*BH, IW, BH, "Time for 2D mesh");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+12*BH, IW, BH, "Time for 3D mesh");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+13*BH, IW, BH, "Gamma factor");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+14*BH, IW, BH, "Eta factor");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+15*BH, IW, BH, "Rho factor");
Fl_Button* b0 = new Fl_Button(width-BB-2*WB, 2*WB+13*BH, BB, BH, "Graph");
b0->callback(opt_statistics_histogram_cb, (void*)0);
Fl_Button* b1 = new Fl_Button(width-BB-2*WB, 2*WB+14*BH, BB, BH, "Graph");
b1->callback(opt_statistics_histogram_cb, (void*)1);
Fl_Button* b2 = new Fl_Button(width-BB-2*WB, 2*WB+15*BH, BB, BH, "Graph");
b2->callback(opt_statistics_histogram_cb, (void*)2);
o->end();
}
{
Fl_Group* o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Post-processing");
o->hide();
stat_value[num++] = new Fl_Output(2*WB, 2*WB+1*BH, IW, BH, "Views"); stat_value[num++] = new Fl_Output(2*WB, 2*WB+2*BH, IW, BH, "Visible points");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+3*BH, IW, BH, "Visible lines");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+4*BH, IW, BH, "Visible triangles");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+5*BH, IW, BH, "Visible quadrangles");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+6*BH, IW, BH, "Visible tetrahedra");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+7*BH, IW, BH, "Visible hexahedra");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+8*BH, IW, BH, "Visible prisms");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+9*BH, IW, BH, "Visible pyramids");
stat_value[num++] = new Fl_Output(2*WB, 2*WB+10*BH, IW, BH, "Visible strings");
o->end();
}
o->end();
}
for(i=0 ; i<num ; i++){
stat_value[i]->align(FL_ALIGN_RIGHT);
stat_value[i]->value(0);
}
{
Fl_Button* o = new Fl_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "Update");
o->callback(opt_statistics_update_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)stat_window);
}
if(CTX.center_windows)
stat_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
stat_window->end();
stat_window->show();
set_statistics();
stat_window->redraw();
}
void GUI::set_statistics(){
int i,num=0;
static double s[50], p[20];
static char label[50][256];
GetStatistics(s);
// geom
sprintf(label[num], "%g", s[0]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[1]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[2]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[3]); stat_value[num]->value(label[num]); num++;
// mesh
sprintf(label[num], "%g", s[4]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[5]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[6]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[7]-s[8]);
stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[8]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[9]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[10]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[11]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[12]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[13]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[14]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g", s[15]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%.4g (%.4g->%.4g)", s[17], s[19], s[18]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%.4g (%.4g->%.4g)", s[20], s[22], s[21]);
stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%.4g (%.4g->%.4g)", s[23], s[25], s[24]);
stat_value[num]->value(label[num]); num++;
// post
p[0] = List_Nbr(CTX.post.list) ;
sprintf(label[num], "%g", p[0]); stat_value[num]->value(label[num]); num++;
p[1] = p[2] = p[3] = p[4] = p[5] = p[6] = p[7] = p[8] = p[9] = p[10] = 0 ;
for(i=0 ; i<List_Nbr(CTX.post.list) ; i++){
Post_View *v = (Post_View*)List_Pointer(CTX.post.list, i);
p[1] += v->NbSP + v->NbVP + v->NbTP;
p[2] += v->NbSL + v->NbVL + v->NbTL;
p[3] += v->NbST + v->NbVT + v->NbTT;
p[4] += v->NbSQ + v->NbVQ + v->NbTQ;
p[5] += v->NbSS + v->NbVS + v->NbTS;
p[6] += v->NbSH + v->NbVH + v->NbTH;
p[7] += v->NbSI + v->NbVI + v->NbTI;
p[8] += v->NbSY + v->NbVY + v->NbTY;
p[9] += v->NbT2 + v->NbT3;
if(v->Visible){
if(v->DrawPoints) p[10] += (v->DrawScalars ? v->NbSP : 0) +
(v->DrawVectors ? v->NbVP : 0) +
(v->DrawTensors ? v->NbTP : 0) ;
if(v->DrawLines) p[11] += (v->DrawScalars ? v->NbSL : 0) +
(v->DrawVectors ? v->NbVL : 0) +
(v->DrawTensors ? v->NbTL : 0) ;
if(v->DrawTriangles) p[12] += (v->DrawScalars ? v->NbST : 0) +
(v->DrawVectors ? v->NbVT : 0) +
(v->DrawTensors ? v->NbTT : 0) ;
if(v->DrawQuadrangles) p[13] += (v->DrawScalars ? v->NbSQ : 0) +
(v->DrawVectors ? v->NbVQ : 0) +
(v->DrawTensors ? v->NbTQ : 0) ;
if(v->DrawTetrahedra) p[14] += (v->DrawScalars ? v->NbSS : 0) +
(v->DrawVectors ? v->NbVS : 0) +
(v->DrawTensors ? v->NbTS : 0) ;
if(v->DrawHexahedra) p[15] += (v->DrawScalars ? v->NbSH : 0) +
(v->DrawVectors ? v->NbVH : 0) +
(v->DrawTensors ? v->NbTH : 0) ;
if(v->DrawPrisms) p[16] += (v->DrawScalars ? v->NbSI : 0) +
(v->DrawVectors ? v->NbVI : 0) +
(v->DrawTensors ? v->NbTI : 0) ;
if(v->DrawPyramids) p[17] += (v->DrawScalars ? v->NbSY : 0) +
(v->DrawVectors ? v->NbVY : 0) +
(v->DrawTensors ? v->NbTY : 0) ;
if(v->DrawStrings) p[18] += v->NbT2 + v->NbT3 ;
}
}
sprintf(label[num], "%g/%g", p[10],p[1]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[11],p[2]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[12],p[3]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[13],p[4]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[14],p[5]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[15],p[6]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[16],p[7]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[17],p[8]); stat_value[num]->value(label[num]); num++;
sprintf(label[num], "%g/%g", p[18],p[9]); stat_value[num]->value(label[num]); num++;
}
// Create the window for the plugins
void GUI::add_multiline_in_browser(Fl_Browser *o, char* prefix, char *str){
int start = 0, len;
char *buff;
if(!str || !strlen(str) || !strcmp(str, "\n")){
o->add("");
return;
} for(unsigned int i=0 ; i<strlen(str) ; i++){
if(i==strlen(str)-1 || str[i]=='\n'){
len = i-start+(str[i]=='\n'?0:1);
buff = new char[len+strlen(prefix)+2];
strcpy(buff, prefix);
strncat(buff, &str[start], len);
buff[len+strlen(prefix)]='\0';
o->add(buff);
start = i+1;
}
}
}
PluginDialogBox * GUI::create_plugin_window(GMSH_Plugin *p){
char buffer[1024],namep[1024],copyright[256],author[256],help[1024];
// get plugin info
int n = p->getNbOptions();
p->getName(namep);
p->getInfos(author,copyright,help);
// create window
int width = 20*CTX.fontsize;
int height = ((n>5?n:5)+2)*BH + 5*WB;
PluginDialogBox *pdb = new PluginDialogBox;
pdb->main_window = new Fl_Window(width,height);
pdb->main_window->box(WINDOW_BOX);
sprintf(buffer,"%s Plugin",namep);
char *nbuffer = new char[strlen(buffer)+1];
strcpy(nbuffer,buffer);
pdb->main_window->label(nbuffer);
{
Fl_Tabs *o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-1*BH);
{
Fl_Group *g = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Options");
if(n > 20)Msg(GERROR, "Plugin has too many parameters");
for(int i=0;i<n;i++){
StringXNumber *sxn;
sxn = p->GetOption(i);
pdb->view_value[i] = new Fl_Value_Input(2*WB, 2*WB+(i+1)*BH, IW, BH, sxn->str);
pdb->view_value[i]->align(FL_ALIGN_RIGHT);
pdb->view_value[i]->value(sxn->def);
}
g->end();
}
{
Fl_Group *g = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "About");
Fl_Browser *o = new Fl_Browser(2*WB, 2*WB+1*BH, width-4*WB, height-5*WB-2*BH);
o->add("");
add_multiline_in_browser(o, "@c@b@.", namep);
o->add("");
add_multiline_in_browser(o, "", help);
o->add("");
add_multiline_in_browser(o, "Author(s): ", author);
add_multiline_in_browser(o, "Copyright: ", copyright);
g->end();
}
o->end();
}
Fl_Button* cancel = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Close");
cancel->callback(cancel_cb, (void*)pdb->main_window);
pdb->run_button = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "Run");
pdb->main_window->resizable(new Fl_Box(2*WB,2*WB+BH,10,10));
if(CTX.center_windows)
pdb->main_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
pdb->main_window->end();
return pdb;
}
// Create the window for the messages
void GUI::create_message_window(){
if(msg_window){
if(msg_window->shown())
msg_window->redraw();
else
msg_window->show();
return;
}
int width = CTX.msg_size[0];
int height = CTX.msg_size[1];
msg_window = new Fl_Window(width,height);
msg_window->box(WINDOW_BOX);
msg_window->label("Messages");
msg_browser = new Fl_Browser(WB, WB, width-2*WB, height-3*WB-BH);
msg_browser->textfont(FL_COURIER);
msg_browser->type(FL_MULTI_BROWSER);
msg_browser->callback(opt_message_copy_cb);
{
Fl_Return_Button* o = new Fl_Return_Button(width-3*BB-3*WB, height-BH-WB, BB, BH, "Save");
o->callback(opt_message_save_cb);
}
{
Fl_Button* o = new Fl_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "Clear");
o->callback(opt_message_clear_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)msg_window);
}
msg_window->resizable(new Fl_Box(WB,WB, 100,10));
msg_window->size_range(WB+100 + 3*BB+4*WB,100);
msg_window->position(CTX.msg_position[0], CTX.msg_position[1]);
msg_window->end();
}
void GUI::add_message(char *msg){
for(int i=0 ; i<(int)strlen(msg) ; i++) if(msg[i]=='\n') msg[i] = ' ';
msg_browser->add(msg,0);
msg_browser->bottomline(msg_browser->size());
}
void GUI::save_message(char *filename){
FILE *fp;
if(!(fp = fopen(filename,"w"))) {
Msg(GERROR, "Unable to open file '%s'", filename);
return;
}
for(int i = 1 ; i<=msg_browser->size() ; i++){
const char *c=msg_browser->text(i);
if(c[0]=='@') fprintf(fp, "%s\n", &c[3]);
else fprintf(fp, "%s\n", c);
}
Msg(INFO, "Log creation complete '%s'", filename);
Msg(STATUS2, "Wrote '%s'", filename);
fclose(fp);
}
void GUI::fatal_error(char *filename){
fl_alert("A fatal error has occurred, which will force Gmsh to exit "
"(all messages have been saved in the error log file '%s')", filename);
}
// Create the visibility window
void GUI::reset_visibility(){
if(vis_window){
vis_browser->clear();
if(vis_window->shown())
opt_visibility_cb(NULL,NULL);
}
}
void GUI::create_visibility_window(){
if(vis_window){
vis_window->show();
return;
}
static int cols[5] = {15,95,95,180,0};
static Fl_Menu_Item type_table[] = {
{"Elementary", 0, (Fl_Callback *)opt_visibility_cb},
{"Physical", 0, (Fl_Callback *)opt_visibility_cb},
{0}
};
static Fl_Menu_Item browser_mode_table[] = {
{"Geometry+Mesh", 0, (Fl_Callback *)opt_visibility_cb},
{"Geometry", 0, (Fl_Callback *)opt_visibility_cb},
{"Mesh", 0, (Fl_Callback *)opt_visibility_cb},
{0}
};
static Fl_Menu_Item input_mode_table[] = {
{"Node", 0, 0},
{"Element", 0, 0},
{"Point", 0, 0},
{"Curve", 0, 0},
{"Surface", 0, 0},
{"Volume", 0, 0},
{0}
};
int width = cols[0]+cols[1]+cols[2]+cols[3]+2*WB;
int height = 15*BH ;
vis_window = new Fl_Window(width,height);
vis_window->box(WINDOW_BOX);
vis_window->label("Visibility");
int brw = width-2*WB;
vis_type = new Fl_Choice(1*WB,1*WB+0*BH,brw/3,BH);
vis_type->menu(type_table);
vis_browser_mode = new Fl_Choice(2*WB+(brw-2*WB)/3,1*WB+0*BH,(brw-2*WB)/3,BH);
vis_browser_mode->menu(browser_mode_table);
vis_butt[0] = new Fl_Check_Button(3*WB+2*(brw-2*WB)/3, 1*WB+0*BH, (brw-2*WB)/3, BH, "Recursive");
vis_butt[0]->type(FL_TOGGLE_BUTTON);
vis_butt[0]->down_box(TOGGLE_BOX);
vis_butt[0]->selection_color(TOGGLE_COLOR);
vis_butt[0]->value(1);
Fl_Button* o0 = new Fl_Button(1*WB, 2*WB+1*BH, cols[0], BH, "*");
o0->callback(opt_visibility_sort_cb, (void*)0);
Fl_Button* o1 = new Fl_Button(1*WB+cols[0], 2*WB+1*BH, cols[1], BH, "Type");
//Fl_Box *a = new Fl_Box(FL_NO_BOX, 1*WB+15+cols[0]-15-20, 2*WB+1*BH, 15, BH, "@#UpArrow");
//a->labeltype(FL_SYMBOL_LABEL);
o1->align(FL_ALIGN_LEFT|FL_ALIGN_INSIDE);
o1->callback(opt_visibility_sort_cb, (void*)1);
Fl_Button* o2 = new Fl_Button(1*WB+cols[0]+cols[1], 2*WB+1*BH, cols[2], BH, "Number");
o2->align(FL_ALIGN_LEFT|FL_ALIGN_INSIDE);
o2->callback(opt_visibility_sort_cb, (void*)2);
Fl_Button* o3 = new Fl_Button(1*WB+cols[0]+cols[1]+cols[2], 2*WB+1*BH, cols[3], BH, "Name");
o3->align(FL_ALIGN_LEFT|FL_ALIGN_INSIDE);
o3->callback(opt_visibility_sort_cb, (void*)3);
vis_browser = new Fl_Browser(1*WB, 2*WB+2*BH, brw, height-5*WB-4*BH);
vis_browser->textfont(FL_COURIER);
vis_browser->type(FL_MULTI_BROWSER);
vis_browser->column_widths(cols);
vis_window->resizable(new Fl_Box(width-3*WB-2*BB-10,3*WB+2*BH+10, 10,10));
vis_window->size_range(width, 5*BH+5*WB);
vis_input = new Fl_Input(1*WB, height-2*WB-2*BH, (brw-2*WB)/3, BH);
vis_input->callback(opt_visibility_number_cb);
vis_input->when(FL_WHEN_ENTER_KEY|FL_WHEN_NOT_CHANGED);
vis_input_mode = new Fl_Choice(2*WB+(brw-2*WB)/3, height-2*WB-2*BH, (brw-2*WB)/3, BH);
vis_input_mode->menu(input_mode_table);
{
Fl_Return_Button* o = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
o->callback(opt_visibility_ok_cb);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)vis_window);
}
if(CTX.center_windows)
vis_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
vis_window->end();
}
// Create the about window
void GUI::create_about_window(){
char buffer[1024];
if(about_window){
about_window->show();
return;
}
int width = 40*CTX.fontsize;
int height = 10*BH ;
about_window = new Fl_Window(width,height);
about_window->box(WINDOW_BOX);
about_window->label("About Gmsh");
{
Fl_Box *o = new Fl_Box(2*WB, WB, about_width, height-3*WB-BH);
about_bmp = new Fl_Bitmap(about_bits,about_width,about_height);
about_bmp->label(o);
}
{
Fl_Browser *o = new Fl_Browser(WB+80, WB, width-2*WB-80, height-3*WB-BH);
o->add("");
o->add("@c@b@.Gmsh");
o->add("@c@.A three-dimensional finite element mesh generator");
o->add("@c@.with built-in pre- and post-processing facilities");
o->add("");
o->add("@c@.Copyright (c) 1997-2002");
o->add("@c@.Christophe Geuzaine and Jean-Franois Remacle");
o->add("");
o->add("@c@.Please send all questions and bug reports to");
o->add("@c@b@.gmsh@geuz.org");
o->add("");
sprintf(buffer, "@c@.Version: %d.%d.%d", GMSH_MAJOR_VERSION,
GMSH_MINOR_VERSION, GMSH_PATCH_VERSION); o->add(buffer);
sprintf(buffer, "@c@.Build date: %s", GMSH_DATE); o->add(buffer);
sprintf(buffer, "@c@.Build OS: %s", GMSH_OS); o->add(buffer);
sprintf(buffer, "@c@.Graphical user interface toolkit: FLTK %d.%d.%d",
FL_MAJOR_VERSION, FL_MINOR_VERSION, FL_PATCH_VERSION); o->add(buffer);
sprintf(buffer, "@c@.Build host: %s", GMSH_HOST); o->add(buffer);
sprintf(buffer, "@c@.Packaged by: %s", GMSH_PACKAGER); o->add(buffer);
o->add("");
o->add("@c@.Visit http://www.geuz.org/gmsh/ for more information");
o->add("");
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-WB, height-BH-WB, BB, BH, "OK");
o->callback(cancel_cb, (void*)about_window);
}
if(CTX.center_windows)
about_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
about_window->end();
}
// Create the window for view options
// WARNING! Don't forget to add the set_changed_cb() callback to any new widget!
void GUI::create_view_options_window(int num){
int i;
if(view_window){
update_view_window(num);
view_window->show();
return;
}
int width = 34*CTX.fontsize;
int height = 5*WB+11*BH;
int BW = width-4*WB;
// initialise all buttons to NULL (see the clear_changed() in opt_view_options_bd)
for(i=0; i<VIEW_OPT_BUTT; i++){
view_butt[i] = NULL;
view_value[i] = NULL;
view_input[i] = NULL; view_choice[i] = NULL;
}
view_window = new Fl_Window(width,height);
view_window->box(WINDOW_BOX);
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
// General
{
Fl_Group *o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "General");
view_butt[1] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW/2-WB, BH, "3D view");
view_butt[2] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW/2-WB, BH, "2D space table");
view_butt[3] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW/2-WB, BH, "2D time table");
for(i=1 ; i<=3 ; i++){
view_butt[i]->type(FL_RADIO_BUTTON);
view_butt[i]->down_box(RADIO_BOX);
view_butt[i]->selection_color(RADIO_COLOR);
view_butt[i]->callback(set_changed_cb, 0);
}
view_input[0] = new Fl_Input(2*WB, 2*WB+4*BH, IW, BH, "Name");
view_input[1] = new Fl_Input(2*WB, 2*WB+5*BH, IW, BH, "Format");
for(i=0 ; i<=1 ; i++){
view_input[i]->align(FL_ALIGN_RIGHT);
view_input[i]->callback(set_changed_cb, 0);
}
int sw=(int)(1.5*CTX.fontsize);
view_butt_rep[0] = new Fl_Repeat_Button(2*WB, 2*WB+6*BH, sw, BH, "-");
//no set_changed since has its own callback
view_butt_rep[1] = new Fl_Repeat_Button(2*WB+IW-sw, 2*WB+6*BH, sw, BH, "+");
//no set_changed since has its own callback
view_value[50] = new Fl_Value_Input(2*WB+sw, 2*WB+6*BH, IW-2*sw, BH);
view_value[50]->align(FL_ALIGN_RIGHT);
view_value[50]->minimum(0);
view_value[50]->maximum(0);
view_value[50]->step(1);
//no set_changed since has its own callback
Fl_Box *a = new Fl_Box(2*WB+IW, 2*WB+6*BH, IW/2, BH, "Time step");
a->box(FL_NO_BOX);
a->align(FL_ALIGN_LEFT|FL_ALIGN_INSIDE);
view_value[20] = new Fl_Value_Input(2*WB, 2*WB+7*BH, IW/2, BH);
view_value[21] = new Fl_Value_Input(2*WB+IW/2, 2*WB+7*BH, IW/2, BH, "Position");
view_value[22] = new Fl_Value_Input(2*WB, 2*WB+8*BH, IW/2, BH);
view_value[23] = new Fl_Value_Input(2*WB+IW/2, 2*WB+8*BH, IW/2, BH, "Size");
for(i=20 ; i<=23 ; i++){
view_value[i]->align(FL_ALIGN_RIGHT);
view_value[i]->callback(set_changed_cb, 0);
}
view_butt[8] = new Fl_Check_Button(width/2, 2*WB+1*BH, BW/2-WB, BH, "Show time");
view_butt[5] = new Fl_Check_Button(width/2, 2*WB+2*BH, BW/2-WB, BH, "Show annotations");
view_butt[4] = new Fl_Check_Button(width/2, 2*WB+3*BH, BW/2-WB, BH, "Show scale");
view_butt[6] = new Fl_Check_Button(width/2, 2*WB+4*BH, BW/2-WB, BH, "Transparent scale");
view_butt[7] = new Fl_Check_Button(width/2, 2*WB+5*BH, BW/2-WB, BH, "Scale/2D graph auto position");
for(i=4 ; i<=8 ; i++){
view_butt[i]->type(FL_TOGGLE_BUTTON);
view_butt[i]->down_box(TOGGLE_BOX);
view_butt[i]->selection_color(TOGGLE_COLOR);
view_butt[i]->callback(set_changed_cb, 0);
}
o->end();
} // 3D
{
view_3d = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "3D");
view_3d->hide();
view_butt[10] = new Fl_Check_Button(width/2, 2*WB+1*BH, BW/2-WB, BH, "Show elements");
view_butt[11] = new Fl_Check_Button(width/2, 2*WB+2*BH, BW/2-WB, BH, "Enable lighting");
view_butt[12] = new Fl_Check_Button(width/2, 2*WB+3*BH, BW/2-WB, BH, "Smooth normals");
for(i=10 ; i<=12 ; i++){
view_butt[i]->type(FL_TOGGLE_BUTTON);
view_butt[i]->down_box(TOGGLE_BOX);
view_butt[i]->selection_color(TOGGLE_COLOR);
view_butt[i]->callback(set_changed_cb, 0);
}
view_value[10] = new Fl_Value_Input(width/2, 2*WB+4*BH, IW, BH, "Angle");
view_value[10]->minimum(0.);
view_value[10]->step(1.);
view_value[10]->maximum(180.);
view_value[11] = new Fl_Value_Input(width/2, 2*WB+5*BH, IW, BH, "Boundary");
view_value[11]->minimum(0);
view_value[11]->step(1);
view_value[11]->maximum(3);
view_value[12] = new Fl_Value_Input(width/2, 2*WB+6*BH, IW, BH, "Explode");
view_value[12]->minimum(0.);
view_value[12]->step(0.01);
view_value[12]->maximum(1.);
for(i=10 ; i<=12 ; i++){
view_value[i]->align(FL_ALIGN_RIGHT);
view_value[i]->callback(set_changed_cb, 0);
}
view_butt[13] = new Fl_Check_Button(2*WB, 2*WB+1*BH, BW/2-WB, BH, "Show points");
view_butt[14] = new Fl_Check_Button(2*WB, 2*WB+2*BH, BW/2-WB, BH, "Show lines");
view_butt[15] = new Fl_Check_Button(2*WB, 2*WB+3*BH, BW/2-WB, BH, "Show triangles");
view_butt[16] = new Fl_Check_Button(2*WB, 2*WB+4*BH, BW/2-WB, BH, "Show quadrangles");
view_butt[17] = new Fl_Check_Button(2*WB, 2*WB+5*BH, BW/2-WB, BH, "Show tetrahedra");
view_butt[18] = new Fl_Check_Button(2*WB, 2*WB+6*BH, BW/2-WB, BH, "Show hexahedra");
view_butt[19] = new Fl_Check_Button(2*WB, 2*WB+7*BH, BW/2-WB, BH, "Show prisms");
view_butt[20] = new Fl_Check_Button(2*WB, 2*WB+8*BH, BW/2-WB, BH, "Show pyramids");
view_butt[21] = new Fl_Check_Button(width/2, 2*WB+7*BH, BW/2-WB, BH, "Show scalar values");
view_butt[22] = new Fl_Check_Button(width/2, 2*WB+8*BH, BW/2-WB, BH, "Show vector values");
view_butt[23] = new Fl_Check_Button(width/2, 2*WB+9*BH, BW/2-WB, BH, "Show tensor values");
for(i=13 ; i<=23 ; i++){
view_butt[i]->type(FL_TOGGLE_BUTTON);
view_butt[i]->down_box(TOGGLE_BOX);
view_butt[i]->selection_color(TOGGLE_COLOR);
view_butt[i]->callback(set_changed_cb, 0);
}
view_3d->end();
}
// 2D
{
view_2d = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "2D");
view_2d->hide();
view_input[2] = new Fl_Input(2*WB, 2*WB+1*BH, IW, BH, "Abscissa name");
view_input[2]->align(FL_ALIGN_RIGHT);
view_input[2]->callback(set_changed_cb, 0);
view_value[25] = new Fl_Value_Input(2*WB, 2*WB+ 2*BH, IW, BH, "Abscissa points");
view_value[25]->minimum(0.);
view_value[25]->step(1);
view_value[25]->maximum(256);
view_value[26] = new Fl_Value_Input(2*WB, 2*WB+ 3*BH, IW, BH, "Grid mode");
view_value[26]->minimum(0.);
view_value[26]->step(1);
view_value[26]->maximum(3);
for(i=25 ; i<=26 ; i++){
view_value[i]->align(FL_ALIGN_RIGHT); view_value[i]->callback(set_changed_cb, 0);
}
view_2d->end();
}
// Range
{
view_range = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Range");
view_range->hide();
view_value[30] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "Intervals");
view_value[30]->align(FL_ALIGN_RIGHT);
view_value[30]->minimum(1);
view_value[30]->maximum(256);
view_value[30]->step(1);
view_value[30]->callback(set_changed_cb, 0);
static Fl_Menu_Item menu_iso[] = {
{"Iso-values", 0, 0, 0},
{"Filled iso-values", 0, 0, 0},
{"Continuous map", 0, 0, 0},
{"Numeric values", 0, 0, 0},
{0}
};
view_choice[0] = new Fl_Choice(2*WB, 2*WB+2*BH, IW, BH, "Intervals type");
view_choice[0]->menu(menu_iso);
view_choice[0]->align(FL_ALIGN_RIGHT);
view_choice[0]->callback(set_changed_cb, 0);
view_butt[34] = new Fl_Check_Button(2*WB, 2*WB+3*BH, IW, BH, "Custom range");
view_butt[34]->type(FL_TOGGLE_BUTTON);
view_butt[34]->down_box(TOGGLE_BOX);
view_butt[34]->selection_color(TOGGLE_COLOR);
//no set_changed since customrange has its own callback
view_value[31] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Minimum");
view_value[32] = new Fl_Value_Input(2*WB, 2*WB+5*BH, IW, BH, "Maximum");
for(i=31 ; i<=32 ; i++){
view_value[i]->align(FL_ALIGN_RIGHT);
view_value[i]->callback(set_changed_cb, 0);
}
static Fl_Menu_Item menu_scale[] = {
{"Linear", 0, 0, 0},
{"Logarithmic", 0, 0, 0},
{"Double logarithmic", 0, 0, 0},
{0}
};
view_choice[1] = new Fl_Choice(2*WB, 2*WB+6*BH, IW, BH, "Scale");
view_choice[1]->menu(menu_scale);
view_choice[1]->align(FL_ALIGN_RIGHT);
view_choice[1]->callback(set_changed_cb, 0);
view_butt[38] = new Fl_Check_Button(2*WB, 2*WB+7*BH, IW, BH, "Saturate values");
view_butt[38]->type(FL_TOGGLE_BUTTON);
view_butt[38]->down_box(TOGGLE_BOX);
view_butt[38]->selection_color(TOGGLE_COLOR);
view_butt[38]->callback(set_changed_cb, 0);
view_range->end();
}
// Offset and Raise
{
Fl_Group *o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Offset");
o->hide();
view_value[40] = new Fl_Value_Input(2*WB, 2*WB+1*BH, IW, BH, "X offset");
view_value[41] = new Fl_Value_Input(2*WB, 2*WB+2*BH, IW, BH, "Y offset");
view_value[42] = new Fl_Value_Input(2*WB, 2*WB+3*BH, IW, BH, "Z offset");
view_value[43] = new Fl_Value_Input(width/2, 2*WB+1*BH, IW, BH, "X raise");
view_value[44] = new Fl_Value_Input(width/2, 2*WB+2*BH, IW, BH, "Y raise"); view_value[45] = new Fl_Value_Input(width/2, 2*WB+3*BH, IW, BH, "Z raise");
for(i=40 ; i<=45 ; i++){
view_value[i]->align(FL_ALIGN_RIGHT);
view_value[i]->callback(set_changed_cb, 0);
}
o->end();
}
// Aspect
{
Fl_Group *o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Aspect");
o->hide();
view_value[61] = new Fl_Value_Input(2*WB, 2*WB+ 1*BH, IW, BH, "Point size");
view_value[61]->minimum(0.1);
view_value[61]->maximum(50);
view_value[61]->step(0.1);
view_value[61]->align(FL_ALIGN_RIGHT);
view_value[61]->callback(set_changed_cb, 0);
static Fl_Menu_Item menu_pointtype[] = {
{"Color dot", 0, 0, 0},
{"3D sphere", 0, 0, 0},
{0}
};
view_choice[5] = new Fl_Choice(2*WB, 2*WB+ 2*BH, IW, BH, "Point display");
view_choice[5]->menu(menu_pointtype);
view_choice[5]->align(FL_ALIGN_RIGHT);
view_choice[5]->callback(set_changed_cb, 0);
view_value[62] = new Fl_Value_Input(2*WB, 2*WB+ 3*BH, IW, BH, "Line width");
view_value[62]->minimum(0.1);
view_value[62]->maximum(50);
view_value[62]->step(0.1);
view_value[62]->align(FL_ALIGN_RIGHT);
view_value[62]->callback(set_changed_cb, 0);
{
view_vector = new Fl_Group(2*WB, 2*WB+ 4*BH, width/2, 5*BH, 0);
view_value[60] = new Fl_Value_Input(2*WB, 2*WB+4*BH, IW, BH, "Vector size");
view_value[60]->minimum(0);
view_value[60]->align(FL_ALIGN_RIGHT);
view_value[60]->callback(set_changed_cb, 0);
static Fl_Menu_Item menu_vectype[] = {
{"Line", 0, 0, 0},
{"Arrow", 0, 0, 0},
{"Pyramid", 0, 0, 0},
{"Cone", 0, 0, 0},
{"Displacement", 0, 0, 0},
{0}
};
view_choice[2] = new Fl_Choice(2*WB, 2*WB+5*BH, IW, BH, "Vector display");
view_choice[2]->menu(menu_vectype);
view_choice[2]->align(FL_ALIGN_RIGHT);
view_choice[2]->callback(set_changed_cb, 0);
static Fl_Menu_Item menu_vecloc[] = {
{"Cell centered", 0, 0, 0},
{"Vertex centered", 0, 0, 0},
{0}
};
view_choice[3] = new Fl_Choice(2*WB, 2*WB+6*BH, IW, BH, "Vector location");
view_choice[3]->menu(menu_vecloc);
view_choice[3]->align(FL_ALIGN_RIGHT);
view_choice[3]->callback(set_changed_cb, 0);
static Fl_Menu_Item menu_tensor[] = {
{"Von-Mises", 0, 0, 0},
{"Eigenvectors", 0, 0, 0}, {0}
};
view_choice[4] = new Fl_Choice(2*WB, 2*WB+7*BH, IW, BH, "Tensor display");
view_choice[4]->menu(menu_tensor);
view_choice[4]->align(FL_ALIGN_RIGHT);
view_choice[4]->callback(set_changed_cb, 0);
view_vector->end();
}
o->end();
}
// Colors
{
Fl_Group *o = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Colors");
o->hide();
view_colorbar_window = new Colorbar_Window(2*WB, 2*WB+1*BH,
width-4*WB, height-5*WB-2*BH);
view_colorbar_window->end();
//no set_changed since colorbarwindow has its own callbacks
o->end();
}
o->end();
}
{
view_ok = new Fl_Return_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "OK");
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)view_window);
}
if(CTX.center_windows)
view_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
view_window->end();
}
void GUI::update_view_window(int num){
int i;
double val;
view_number = num ;
Post_View *v = (Post_View*)List_Pointer(CTX.post.list, num);
static char buffer[1024];
sprintf(buffer, "Options for \"%s\" (\"%s\")", v->Name, v->FileName);
view_window->label(buffer);
// general
opt_view_name(num, GMSH_GUI, NULL);
opt_view_format(num, GMSH_GUI, NULL);
opt_view_type(num, GMSH_GUI, 0);
opt_view_show_scale(num, GMSH_GUI, 0);
opt_view_draw_strings(num, GMSH_GUI, 0);
opt_view_transparent_scale(num, GMSH_GUI, 0);
opt_view_auto_position(num, GMSH_GUI, 0);
if(v->NbSP){
view_butt[2]->activate();
view_butt[3]->activate();
}
else{
view_butt[2]->deactivate();
view_butt[3]->deactivate();
}
opt_view_position0(num, GMSH_GUI, 0);
opt_view_position1(num, GMSH_GUI, 0); opt_view_size0(num, GMSH_GUI, 0);
opt_view_size1(num, GMSH_GUI, 0);
//3D
if(v->TextOnly){
view_3d->deactivate();
view_range->deactivate();
view_butt[1]->deactivate();
}
else{
view_3d->activate();
view_range->activate();
view_butt[1]->activate();
}
opt_view_show_element(num, GMSH_GUI, 0);
opt_view_light(num, GMSH_GUI, 0);
opt_view_smooth_normals(num, GMSH_GUI, 0);
opt_view_angle_smooth_normals(num, GMSH_GUI, 0);
opt_view_boundary(num, GMSH_GUI, 0);
opt_view_explode(num, GMSH_GUI, 0);
opt_view_draw_points(num, GMSH_GUI, 0);
opt_view_draw_lines(num, GMSH_GUI, 0);
opt_view_draw_triangles(num, GMSH_GUI, 0);
opt_view_draw_quadrangles(num, GMSH_GUI, 0);
opt_view_draw_tetrahedra(num, GMSH_GUI, 0);
opt_view_draw_hexahedra(num, GMSH_GUI, 0);
opt_view_draw_prisms(num, GMSH_GUI, 0);
opt_view_draw_pyramids(num, GMSH_GUI, 0);
opt_view_draw_scalars(num, GMSH_GUI, 0);
opt_view_draw_vectors(num, GMSH_GUI, 0);
opt_view_draw_tensors(num, GMSH_GUI, 0);
//2D
if(v->NbSP)
view_2d->activate();
else
view_2d->deactivate();
opt_view_abscissa_name(num, GMSH_GUI, NULL);
opt_view_nb_abscissa(num, GMSH_GUI, 0);
opt_view_grid(num, GMSH_GUI, 0);
// range
opt_view_nb_iso(num, GMSH_GUI, 0);
opt_view_intervals_type(num, GMSH_GUI, 0);
opt_view_range_type(num, GMSH_GUI, 0);
view_butt[34]->callback(view_options_custom_cb, (void*)num);
view_options_custom_cb(0,0);
view_butt[34]->clear_changed();
opt_view_custom_min(num, GMSH_GUI, 0);
opt_view_custom_max(num, GMSH_GUI, 0);
for(i=31 ; i<=32 ; i++){
view_value[i]->minimum(v->CustomMin);
view_value[i]->maximum(v->CustomMax);
}
opt_view_scale_type(num, GMSH_GUI, 0);
opt_view_saturate_values(num, GMSH_GUI, 0);
// offset/raise
opt_view_offset0(num, GMSH_GUI, 0);
opt_view_offset1(num, GMSH_GUI, 0);
opt_view_offset2(num, GMSH_GUI, 0);
opt_view_raise0(num, GMSH_GUI, 0);
opt_view_raise1(num, GMSH_GUI, 0);
opt_view_raise2(num, GMSH_GUI, 0);
val = 10.*CTX.lc ;
for(i=40 ; i<=45 ; i++){
view_value[i]->step(val,1000);
view_value[i]->minimum(-val);
view_value[i]->maximum(val);
}
// timestep
if(v->NbTimeStep==1){
view_value[50]->deactivate();
view_butt_rep[0]->deactivate();
view_butt_rep[1]->deactivate();
view_butt[8]->deactivate();
}
else{
view_value[50]->activate();
view_butt_rep[0]->activate();
view_butt_rep[1]->activate();
view_butt[8]->activate();
}
view_value[50]->callback(view_options_timestep_cb, (void*)num);
view_value[50]->maximum(v->NbTimeStep-1);
view_butt_rep[0]->callback(view_options_timestep_decr_cb, (void*)num);
view_butt_rep[1]->callback(view_options_timestep_incr_cb, (void*)num);
opt_view_timestep(num, GMSH_GUI, 0);
opt_view_show_time(num, GMSH_GUI, 0);
// aspect
if(v->ScalarOnly) view_vector->deactivate();
else view_vector->activate();
opt_view_point_size(num, GMSH_GUI, 0);
opt_view_point_type(num, GMSH_GUI, 0);
opt_view_line_width(num, GMSH_GUI, 0);
opt_view_arrow_type(num, GMSH_GUI, 0);
opt_view_arrow_scale(num, GMSH_GUI, 0);
opt_view_arrow_location(num, GMSH_GUI, 0);
opt_view_tensor_type(num, GMSH_GUI, 0);
// colors
view_colorbar_window->update(v->Name, v->Min, v->Max, &v->CT, &v->Changed);
// OK
view_ok->callback(view_options_ok_cb, (void*)num);
}
// Create the window for geometry context dependant definitions
void GUI::create_geometry_context_window(int num){
static Fl_Group *g[10];
int i;
if(context_geometry_window){
for(i=0 ; i<6 ; i++) g[i]->hide();
g[num]->show();
context_geometry_window->show();
return;
}
int width = 31*CTX.fontsize;
int height = 5*WB+9*BH ;
context_geometry_window = new Fl_Window(width,height);
context_geometry_window->box(WINDOW_BOX);
context_geometry_window->label("Contextual geometry definitions");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
// 0: Parameter
{
g[0] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Parameter");
context_geometry_input[0] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "Name");
context_geometry_input[1] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Value");
for(i=0 ; i<2 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Add"); o->callback(con_geometry_define_parameter_cb);
}
g[0]->end();
}
// 1: Point
{
g[1] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Point");
context_geometry_input[2] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "X coordinate");
context_geometry_input[3] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Y coordinate");
context_geometry_input[4] = new Fl_Input (2*WB, 2*WB+3*BH, IW, BH, "Z coordinate");
context_geometry_input[5] = new Fl_Input (2*WB, 2*WB+4*BH, IW, BH, "Characteristic length");
for(i=2 ; i<6 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Add");
o->callback(con_geometry_define_point_cb);
}
g[1]->end();
}
// 2: Translation
{
g[2] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Translation");
context_geometry_input[6] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "X component");
context_geometry_input[7] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Y component");
context_geometry_input[8] = new Fl_Input (2*WB, 2*WB+3*BH, IW, BH, "Z component");
for(i=6 ; i<9 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Set");
o->callback(con_geometry_define_translation_cb);
}
g[2]->end();
}
// 3: Rotation
{
g[3] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Rotation");
context_geometry_input[9] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "X coordinate of an axis point");
context_geometry_input[10] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Y coordinate of an axis point");
context_geometry_input[11] = new Fl_Input (2*WB, 2*WB+3*BH, IW, BH, "Z coordinate of an axis point");
context_geometry_input[12] = new Fl_Input (2*WB, 2*WB+4*BH, IW, BH, "X component of direction");
context_geometry_input[13] = new Fl_Input (2*WB, 2*WB+5*BH, IW, BH, "Y component of direction");
context_geometry_input[14] = new Fl_Input (2*WB, 2*WB+6*BH, IW, BH, "Z component of direction");
context_geometry_input[15] = new Fl_Input (2*WB, 2*WB+7*BH, IW, BH, "Angle in radians");
for(i=9 ; i<16 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Set");
o->callback(con_geometry_define_rotation_cb);
}
g[3]->end();
}
// 4: Scale
{
g[4] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Scale");
context_geometry_input[16] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "X component of direction");
context_geometry_input[17] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Y component of direction");
context_geometry_input[18] = new Fl_Input (2*WB, 2*WB+3*BH, IW, BH, "Z component of direction");
context_geometry_input[19] = new Fl_Input (2*WB, 2*WB+4*BH, IW, BH, "Factor");
for(i=16 ; i<20 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Set");
o->callback(con_geometry_define_scale_cb);
}
g[4]->end();
} // 5: Symmetry
{
g[5] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Symmetry");
context_geometry_input[20] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "1st plane equation coefficient");
context_geometry_input[21] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "2nd plane equation coefficient");
context_geometry_input[22] = new Fl_Input (2*WB, 2*WB+3*BH, IW, BH, "3rd plane equation coefficient");
context_geometry_input[23] = new Fl_Input (2*WB, 2*WB+4*BH, IW, BH, "4th plane equation coefficient");
for(i=20 ; i<24 ; i++){
context_geometry_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+7*BH, BB, BH, "Set");
o->callback(con_geometry_define_symmetry_cb);
}
g[5]->end();
}
o->end();
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)context_geometry_window);
}
for(i=0 ; i<6 ; i++) g[i]->hide();
g[num]->show();
if(CTX.center_windows)
context_geometry_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
context_geometry_window->end();
context_geometry_window->show();
}
// Create the window for mesh context dependant definitions
void GUI::create_mesh_context_window(int num){
static Fl_Group *g[10];
int i;
if(context_mesh_window){
for(i=0 ; i<3 ; i++) g[i]->hide();
g[num]->show();
context_mesh_window->show();
return;
}
int width = 31*CTX.fontsize;
int height = 5*WB+5*BH ;
context_mesh_window = new Fl_Window(width,height);
context_mesh_window->box(WINDOW_BOX);
context_mesh_window->label("Contextual mesh definitions");
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-3*WB-BH);
// 0: Characteristic length
{
g[0] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Characteristic length");
context_mesh_input[0] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "Value");
context_mesh_input[0]->align(FL_ALIGN_RIGHT);
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+3*BH, BB, BH, "Set");
o->callback(con_mesh_define_length_cb);
}
g[0]->end();
}
// 1: Transfinite line
{
g[1] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Transfinite line"); context_mesh_input[1] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "Number of points");
context_mesh_input[2] = new Fl_Input (2*WB, 2*WB+2*BH, IW, BH, "Distribution");
for(i=1 ; i<3 ; i++){
context_mesh_input[i]->align(FL_ALIGN_RIGHT);
}
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+3*BH, BB, BH, "Set");
o->callback(con_mesh_define_transfinite_line_cb);
}
g[1]->end();
}
// 2: Transfinite volume
{
g[2] = new Fl_Group(WB, WB+BH, width-2*WB, height-3*WB-2*BH, "Transfinite volume");
context_mesh_input[3] = new Fl_Input (2*WB, 2*WB+1*BH, IW, BH, "Volume number");
context_mesh_input[3]->align(FL_ALIGN_RIGHT);
{
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB, 2*WB+3*BH, BB, BH, "Set");
o->callback(con_mesh_define_transfinite_line_cb);
}
g[2]->end();
}
o->end();
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)context_mesh_window);
}
for(i=0 ; i<3 ; i++) g[i]->hide();
g[num]->show();
if(CTX.center_windows)
context_mesh_window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
context_mesh_window->end();
context_mesh_window->show();
}
// Create the windows for the solvers
void GUI::create_solver_window(int num){
int i, nbbutts=0, newrow=0;
static Fl_Group *g[10];
int LL = (int)(1.75*IW);
if(solver[num].window){
solver[num].window->show();
return;
}
for(i=0; i<MAXSOLVERS; i++)
if(strlen(SINFO[num].option_name[i])) SINFO[num].nboptions = i+1;
for(i=0; i<MAXSOLVERS; i++)
if(strlen(SINFO[num].button_name[i])) nbbutts++ ;
if(nbbutts > 3) newrow = 1;
int width = 5*BB+6*WB;
int height = (8+SINFO[num].nboptions+newrow)*WB+ (6+SINFO[num].nboptions+newrow)*BH ;
if(height < 7*WB+7*BH) height = 7*WB+7*BH; //minimum height required by Options tab
solver[num].window = new Fl_Window(width,height);
solver[num].window->box(WINDOW_BOX);
{
Fl_Tabs* o = new Fl_Tabs(WB, WB, width-2*WB, height-(3+newrow)*WB-(1+newrow)*BH);
{ g[0] = new Fl_Group(WB, WB+BH, width-2*WB, height-(3+newrow)*WB-(2+newrow)*BH, "General");
solver[num].input[0] = new Fl_Input(2*WB, 2*WB+1*BH, LL, BH, "Problem");
Fl_Button *b1 = new Fl_Button(2*WB, 3*WB+2*BH, BB, BH, "Choose");
b1->callback(solver_file_open_cb, (void*)num);
Fl_Button *b2 = new Fl_Button(3*WB+BB, 3*WB+2*BH, BB, BH, "Edit");
b2->callback(solver_file_edit_cb, (void*)num);
solver[num].input[1] = new Fl_Input(2*WB, 4*WB+3*BH, LL, BH, "Mesh");
Fl_Button *b3 = new Fl_Button(2*WB, 5*WB+4*BH, BB, BH, "Choose");
b3->callback(solver_choose_mesh_cb, (void*)num);
for(i=0 ; i<2 ; i++){
solver[num].input[i]->align(FL_ALIGN_RIGHT);
}
for(i=0; i<SINFO[num].nboptions; i++){
solver[num].choice[i] = new Fl_Choice(2*WB, (6+i)*WB+(5+i)*BH, LL, BH,
SINFO[num].option_name[i]);
solver[num].choice[i]->align(FL_ALIGN_RIGHT);
}
g[0]->end();
}
{
g[1] = new Fl_Group(WB, WB+BH, width-2*WB, height-(3+newrow)*WB-(2+newrow)*BH, "Options");
solver[num].input[2] = new Fl_Input(2*WB, 2*WB+1*BH, LL, BH, "Executable");
solver[num].input[2]->align(FL_ALIGN_RIGHT);
Fl_Button *b = new Fl_Button(2*WB, 3*WB+2*BH, BB, BH, "Choose");
b->callback(solver_choose_executable_cb, (void*)num);
solver[num].butt[2] = new Fl_Check_Button(2*WB, 4*WB+3*BH, LL, BH,
"Client/server connection");
solver[num].butt[0] = new Fl_Check_Button(2*WB, 4*WB+4*BH, LL, BH,
"Automatic message display");
solver[num].butt[1] = new Fl_Check_Button(2*WB, 4*WB+5*BH, LL, BH,
"Automatic view merge");
for(i=0 ; i<3 ; i++){
solver[num].butt[i]->type(FL_TOGGLE_BUTTON);
solver[num].butt[i]->down_box(TOGGLE_BOX);
solver[num].butt[i]->selection_color(TOGGLE_COLOR);
}
Fl_Return_Button* o = new Fl_Return_Button(width-BB-2*WB,
height-(3+newrow)*WB-(2+newrow)*BH, BB, BH, "OK");
o->callback(solver_ok_cb, (void*)num);
g[1]->end();
}
{
g[2] = new Fl_Group(WB, WB+BH, width-2*WB, height-(3+newrow)*WB-(2+newrow)*BH, "About");
Fl_Browser *o = new Fl_Browser(2*WB, 2*WB+1*BH, width-4*WB,
height-(5+newrow)*WB-(2+newrow)*BH);
o->add("");
add_multiline_in_browser(o, "@c@b@.", SINFO[num].name);
o->add("");
add_multiline_in_browser(o, "@c@. ", SINFO[num].help);
g[2]->end();
}
o->end();
}
static int arg[MAXSOLVERS][5][2];
int nb=0;
for(i=4; i>=0; i--){
if(strlen(SINFO[num].button_name[i])){
arg[num][i][0]=num; arg[num][i][1]=i;
solver[num].command[nb] = new Fl_Button(width-(1+nb+2*!newrow)*BB-(1+nb+2*!newrow)*WB,
height-(1+newrow)*BH-(1+newrow)*WB,
BB, BH,
SINFO[num].button_name[i]);
solver[num].command[nb]->callback(solver_command_cb,(void*)arg[num][i]);
nb++;
}
}
{
Fl_Button* o = new Fl_Button(width-2*BB-2*WB, height-BH-WB, BB, BH, "Kill");
o->callback(solver_kill_cb, (void*)num);
}
{
Fl_Button* o = new Fl_Button(width-BB-WB, height-BH-WB, BB, BH, "Cancel");
o->callback(cancel_cb, (void*)solver[num].window);
}
if(CTX.center_windows)
solver[num].window->position(m_window->x()+m_window->w()/2-width/2,
m_window->y()+9*BH-height/2);
solver[num].window->end();
}