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Christophe Geuzaine authoredChristophe Geuzaine authored
DefaultOptions.h 89.51 KiB
// Gmsh - Copyright (C) 1997-2014 C. Geuzaine, J.-F. Remacle
//
// See the LICENSE.txt file for license information. Please report all
// bugs and problems to the public mailing list <gmsh@geuz.org>.
#ifndef _DEFAULT_OPTIONS_H_
#define _DEFAULT_OPTIONS_H_
#include "GmshConfig.h"
#include "GmshDefines.h"
#include "Options.h"
// PLEASE RESPECT THE ALPHABETICAL ORDER WHEN
// INSERTING A NEW OPTION!
//
// Option Database (General, Geometry, Mesh, Post, View, Print), with
// default values. The first number defines the level of saving: O
// for the option file, S for the session file and F for the full
// listing:
#define S GMSH_SESSIONRC
#define O GMSH_OPTIONSRC
#define F GMSH_FULLRC
// STRINGS
StringXString GeneralOptions_String[] = {
{ F|O, "AxesFormatX" , opt_general_axes_format0 , "%.3g" ,
"Number format for X-axis (in standard C form)" },
{ F|O, "AxesFormatY" , opt_general_axes_format1 , "%.3g" ,
"Number format for Y-axis (in standard C form)" },
{ F|O, "AxesFormatZ" , opt_general_axes_format2 , "%.3g" ,
"Number format for Z-axis (in standard C form)" },
{ F|O, "AxesLabelX" , opt_general_axes_label0 , "" ,
"X-axis label" },
{ F|O, "AxesLabelY" , opt_general_axes_label1 , "" ,
"Y-axis label" },
{ F|O, "AxesLabelZ" , opt_general_axes_label2 , "" ,
"Z-axis label" },
{ F|O, "BackgroundImageFileName" , opt_general_background_image_filename , "" ,
"Background image file in JPEG, PNG or PDF format" },
{ F|O, "DefaultFileName" , opt_general_default_filename , "untitled.geo" ,
"Default project file name" },
{ F, "Display" , opt_general_display , "" ,
"X server to use (only for Unix versions)" },
{ F|O, "ErrorFileName" , opt_general_error_filename ,
#if defined(WIN32)
"gmsh-errors" ,
#else
".gmsh-errors" ,
#endif
"File into which the log is saved if a fatal error occurs" },
{ F, "FileName" , opt_general_filename , "" ,
"Current project file name (read-only)" },
{ F|O, "FltkTheme" , opt_general_gui_theme , "" ,
"FLTK user interface theme (try e.g. plastic or gtk+)" },
{ F|O, "GraphicsFont" , opt_general_graphics_font , "Helvetica" ,
"Font used in the graphic window" },
{ F|O, "GraphicsFontEngine" , opt_general_graphics_font_engine , "Native" ,
"Set graphics font engine (Native, Cairo)" },
{ F|O, "GraphicsFontTitle" , opt_general_graphics_font_title , "Helvetica" ,
"Font used in the graphic window for titles" },
{ F|S, "OptionsFileName" , opt_general_options_filename ,
#if defined(WIN32) "gmsh-options" ,
#else
".gmsh-options" ,
#endif
"Option file created with `Tools->Options->Save'; automatically read on startup" },
{ F|S, "RecentFile0", opt_general_recent_file0 , "untitled.geo" ,
"Most recent opened file"},
{ F|S, "RecentFile1", opt_general_recent_file1 , "untitled.geo" ,
"2nd most recent opened file"},
{ F|S, "RecentFile2", opt_general_recent_file2 , "untitled.geo" ,
"3rd most recent opened file"},
{ F|S, "RecentFile3", opt_general_recent_file3 , "untitled.geo" ,
"4th most recent opened file"},
{ F|S, "RecentFile4", opt_general_recent_file4 , "untitled.geo" ,
"5th most recent opened file"},
{ 0, "SessionFileName" , opt_general_session_filename ,
#if defined(WIN32)
"gmshrc" ,
#else
".gmshrc" ,
#endif
"Option file into which session specific information is saved; automatically "
"read on startup" },
{ F|O, "TextEditor" , opt_general_editor ,
#if defined(WIN32)
"notepad.exe %s" ,
#elif defined(__APPLE__)
"open -t %s" ,
#else
"sensible-editor '%s'" ,
#endif
"System command to launch a text editor" },
{ F|S, "TmpFileName" , opt_general_tmp_filename ,
#if defined(WIN32)
"gmsh-tmp" ,
#else
".gmsh-tmp" ,
#endif
"Temporary file used by the geometry module" },
{ F, "WatchFilePattern", opt_general_watch_file_pattern , "" ,
"Pattern of files to merge as they become available"},
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString GeometryOptions_String[] = {
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString MeshOptions_String[] = {
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString SolverOptions_String[] = {
{ F|S, "Executable0" , opt_solver_executable0 , "",
"System command to launch solver 0" },
{ F|S, "Executable1" , opt_solver_executable1 , "" ,
"System command to launch solver 1" },
{ F|S, "Executable2" , opt_solver_executable2 , "" ,
"System command to launch solver 2" },
{ F|S, "Executable3" , opt_solver_executable3 , "" ,
"System command to launch solver 3" },
{ F|S, "Executable4" , opt_solver_executable4 , "" ,
"System command to launch solver 4" },
{ F|S, "Executable5" , opt_solver_executable5 , "",
"System command to launch solver 5" }, { F|S, "Executable6" , opt_solver_executable6 , "" ,
"System command to launch solver 6" },
{ F|S, "Executable7" , opt_solver_executable7 , "" ,
"System command to launch solver 7" },
{ F|S, "Executable8" , opt_solver_executable8 , "" ,
"System command to launch solver 8" },
{ F|S, "Executable9" , opt_solver_executable9 , "" ,
"System command to launch solver 9" },
{ F|S, "Name0" , opt_solver_name0 , "GetDP" ,
"Name of solver 0" },
{ F|S, "Name1" , opt_solver_name1 , "" ,
"Name of solver 1" },
{ F|S, "Name2" , opt_solver_name2 , "" ,
"Name of solver 2" },
{ F|S, "Name3" , opt_solver_name3 , "" ,
"Name of solver 3" },
{ F|S, "Name4" , opt_solver_name4 , "" ,
"Name of solver 4" },
{ F|S, "Name5" , opt_solver_name5 , "" ,
"Name of solver 5" },
{ F|S, "Name6" , opt_solver_name6 , "" ,
"Name of solver 6" },
{ F|S, "Name7" , opt_solver_name7 , "" ,
"Name of solver 7" },
{ F|S, "Name8" , opt_solver_name8 , "" ,
"Name of solver 8" },
{ F|S, "Name9" , opt_solver_name9 , "" ,
"Name of solver 9" },
{ F|S, "OctaveInterpreter" , opt_solver_octave_interpreter , "octave" ,
"Name of the Octave interpreter (used to run .m files)" },
{ F|S, "PythonInterpreter" , opt_solver_python_interpreter , "python" ,
"Name of the Python interpreter (used to run .py files if they are not executable)" },
{ F|S, "RemoteLogin0" , opt_solver_remote_login0 , "",
"Command to login to a remote host to launch solver 0" },
{ F|S, "RemoteLogin1" , opt_solver_remote_login1 , "" ,
"Command to login to a remote host to launch solver 1" },
{ F|S, "RemoteLogin2" , opt_solver_remote_login2 , "" ,
"Command to login to a remote host to launch solver 2" },
{ F|S, "RemoteLogin3" , opt_solver_remote_login3 , "" ,
"Command to login to a remote host to launch solver 3" },
{ F|S, "RemoteLogin4" , opt_solver_remote_login4 , "" ,
"Command to login to a remote host to launch solver 4" },
{ F|S, "RemoteLogin5" , opt_solver_remote_login5 , "",
"Command to login to a remote host to launch solver 5" },
{ F|S, "RemoteLogin6" , opt_solver_remote_login6 , "" ,
"Command to login to a remote host to launch solver 6" },
{ F|S, "RemoteLogin7" , opt_solver_remote_login7 , "" ,
"Command to login to a remote host to launch solver 7" },
{ F|S, "RemoteLogin8" , opt_solver_remote_login8 , "" ,
"Command to login to a remote host to launch solver 8" },
{ F|S, "RemoteLogin9" , opt_solver_remote_login9 , "" ,
"Command to login to a remote host to launch solver 9" },
{ F|O, "SocketName" , opt_solver_socket_name ,
#if defined(WIN32) && !defined(__CYGWIN__)
"127.0.0.1:0" , // use TCP/IP sockets by default on Windows
#else
".gmshsock" , // otherwise use Unix sockets by default
#endif
"Base name of socket (UNIX socket if the name does not contain a colon, TCP/IP "
"otherwise, in the form 'host:baseport'; the actual name/port is constructed "
"by appending the unique client id. If baseport is 0, the port is chosen "
"automatically (recommended))"},
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString PostProcessingOptions_String[] = {
{ F|O, "GraphPointCommand" , opt_post_graph_point_command, "" ,
"Command parsed when double-clicking on a graph data point "
"(e.g. Merge Sprintf('file_%g.pos', PostProcessing.GraphPointX);)" },
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString ViewOptions_String[] = {
{ F|O, "Attributes" , opt_view_attributes , "" ,
"Optional string attributes" },
{ F|O, "AxesFormatX" , opt_view_axes_format0 , "%.3g" ,
"Number format for X-axis (in standard C form)" },
{ F|O, "AxesFormatY" , opt_view_axes_format1 , "%.3g" ,
"Number format for Y-axis (in standard C form)" },
{ F|O, "AxesFormatZ" , opt_view_axes_format2 , "%.3g" ,
"Number format for Z-axis (in standard C form)" },
{ F|O, "AxesLabelX" , opt_view_axes_label0 , "" ,
"X-axis label" },
{ F|O, "AxesLabelY" , opt_view_axes_label1 , "" ,
"Y-axis label" },
{ F|O, "AxesLabelZ" , opt_view_axes_label2 , "" ,
"Z-axis label" },
{ F, "FileName" , opt_view_filename , "" ,
"Default post-processing view file name" },
{ F|O, "Format" , opt_view_format , "%.3g" ,
"Number format (in standard C form)" },
{ F|O, "GeneralizedRaiseX" , opt_view_gen_raise0 , "v0" ,
"Generalized elevation of the view along X-axis (in model coordinates, "
"using formula possibly containing x, y, z, s[tep], t[ime], v0, ... v8)" },
{ F|O, "GeneralizedRaiseY" , opt_view_gen_raise1 , "v1" ,
"Generalized elevation of the view along Y-axis (in model coordinates, "
"using formula possibly containing x, y, z, s[tep], t[ime], v0, ... v8)" },
{ F|O, "GeneralizedRaiseZ" , opt_view_gen_raise2 , "v2" ,
"Generalized elevation of the view along Z-axis (in model coordinates, "
"using formula possibly containing x, y, z, s[tep], t[ime], v0, ... v8)" },
{ F, "Name" , opt_view_name , "" ,
"Default post-processing view name" },
{ F|O, "Stipple0" , opt_view_stipple0 , "1*0x1F1F" ,
"First stippling pattern" },
{ F|O, "Stipple1" , opt_view_stipple1 , "1*0x3333" ,
"Second stippling pattern" },
{ F|O, "Stipple2" , opt_view_stipple2 , "1*0x087F" ,
"Third stippling pattern" },
{ F|O, "Stipple3" , opt_view_stipple3 , "1*0xCCCF" ,
"Fourth stippling pattern" },
{ F|O, "Stipple4" , opt_view_stipple4 , "2*0x1111" ,
"Fifth stippling pattern" },
{ F|O, "Stipple5" , opt_view_stipple5 , "2*0x0F0F" ,
"Sixth stippling pattern" },
{ F|O, "Stipple6" , opt_view_stipple6 , "1*0xCFFF" ,
"Seventh stippling pattern" },
{ F|O, "Stipple7" , opt_view_stipple7 , "2*0x0202" ,
"Eighth stippling pattern" },
{ F|O, "Stipple8" , opt_view_stipple8 , "2*0x087F" ,
"Ninth stippling pattern" },
{ F|O, "Stipple9" , opt_view_stipple9 , "1*0xFFFF" ,
"Tenth stippling pattern" },
{ 0, 0 , 0 , "" , 0 }
} ;
StringXString PrintOptions_String[] = {
{ F|O, "ParameterCommand" , opt_print_parameter_command ,
"Mesh.Clip=1; View.Clip=1; General.ClipWholeElements=1; " "General.Clip0D=Print.Parameter; SetChanged;" ,
"Command parsed when the print parameter is changed" },
{ 0, 0 , 0 , "" , 0 }
} ;
// NUMBERS
StringXNumber GeneralOptions_Number[] = {
{ F|O, "AlphaBlending" , opt_general_alpha_blending , 1. ,
"Enable alpha blending (transparency) in post-processing views" },
{ F|O, "Antialiasing" , opt_general_antialiasing , 0. ,
"Use multisample antialiasing (will slow down rendering)" },
{ F|O, "ArrowHeadRadius" , opt_general_arrow_head_radius , 0.12 ,
"Relative radius of arrow head" },
{ F|O, "ArrowStemLength" , opt_general_arrow_stem_length , 0.56 ,
"Relative length of arrow stem" },
{ F|O, "ArrowStemRadius" , opt_general_arrow_stem_radius , 0.02 ,
"Relative radius of arrow stem" },
{ F|O, "Axes" , opt_general_axes , 0. ,
"Axes (0=none, 1=simple axes, 2=box, 3=full grid, 4=open grid, 5=ruler)" },
{ F|O, "AxesMikado" , opt_general_axes_mikado , 0. ,
"Mikado axes style" },
{ F|O, "AxesAutoPosition" , opt_general_axes_auto_position , 1. ,
"Position the axes automatically" },
{ F|O, "AxesForceValue" , opt_general_axes_force_value , 0. ,
"Force values on axes (otherwise use natural coordinates)" },
{ F|O, "AxesMaxX" , opt_general_axes_xmax , 1. ,
"Maximum X-axis coordinate" },
{ F|O, "AxesMaxY" , opt_general_axes_ymax , 1. ,
"Maximum Y-axis coordinate" },
{ F|O, "AxesMaxZ" , opt_general_axes_zmax , 1. ,
"Maximum Z-axis coordinate" },
{ F|O, "AxesMinX" , opt_general_axes_xmin , 0. ,
"Minimum X-axis coordinate" },
{ F|O, "AxesMinY" , opt_general_axes_ymin , 0. ,
"Minimum Y-axis coordinate" },
{ F|O, "AxesMinZ" , opt_general_axes_zmin , 0. ,
"Minimum Z-axis coordinate" },
{ F|O, "AxesTicsX" , opt_general_axes_tics0 , 5. ,
"Number of tics on the X-axis" },
{ F|O, "AxesTicsY" , opt_general_axes_tics1 , 5. ,
"Number of tics on the Y-axis" },
{ F|O, "AxesTicsZ" , opt_general_axes_tics2 , 5. ,
"Number of tics on the Z-axis" },
{ F|O, "AxesValueMaxX" , opt_general_axes_value_xmax , 1. ,
"Maximum X-axis forced value" },
{ F|O, "AxesValueMaxY" , opt_general_axes_value_ymax , 1. ,
"Maximum Y-axis forced value" },
{ F|O, "AxesValueMaxZ" , opt_general_axes_value_zmax , 1. ,
"Maximum Z-axis forced value" },
{ F|O, "AxesValueMinX" , opt_general_axes_value_xmin , 0. ,
"Minimum X-axis forced value" },
{ F|O, "AxesValueMinY" , opt_general_axes_value_ymin , 0. ,
"Minimum Y-axis forced value" },
{ F|O, "AxesValueMinZ" , opt_general_axes_value_zmin , 0. ,
"Minimum Z-axis forced value" },
{ F|O, "BackgroundGradient" , opt_general_background_gradient , 1. ,
"Draw background gradient (0=none, 1=vertical, 2=horizontal, 3=radial)" },
{ F|O, "BackgroundImage3D" , opt_general_background_image_3d , 0 ,
"Create background image in the 3D model (units = model units) or as "
"2D background (units = pixels)" },
{ F|O, "BackgroundImagePage" , opt_general_background_image_page , 0 ,
"Page to render in the background image (for multi-page PDFs)" },
{ F|O, "BackgroundImagePositionX" , opt_general_background_image_position0 , 0 ,
"X position of background image (for 2D background: < 0: measure from right window edge; "
">= 1e5: centered)" },
{ F|O, "BackgroundImagePositionY" , opt_general_background_image_position1 , 0 ,
"Y position of background image (for 2D background: < 0: measure from bottom window edge; " ">= 1e5: centered)" },
{ F|O, "BackgroundImageWidth" , opt_general_background_image_size0 , -1. ,
"Width of background image (0: actual width if height = 0, natural scaling if not; "
"-1: graphic window width)" },
{ F|O, "BackgroundImageHeight" , opt_general_background_image_size1 , -1 ,
"Height of background image (0: actual height if width = 0, natural scaling if not; "
"-1: graphic window height)" },
{ F|O, "BoundingBoxSize" , opt_general_lc, 1. ,
"Overall bounding box size (read-only)" },
{ F|O, "Camera" , opt_general_camera_mode, 0. ,
"Enable camera view mode" },
{ F|O, "CameraAperture" , opt_general_camera_aperture, 40. ,
"Camera aperture in degrees" },
{ F|O, "CameraEyeSeparationRatio" , opt_general_eye_sep_ratio, 1.5 ,
"Eye separation ratio in % for stereo rendering" },
{ F|O, "CameraFocalLengthRatio" , opt_general_focallength_ratio, 1.0 ,
"Camera Focal length ratio" },
{ F, "Clip0A" , opt_general_clip0a , 1.0 ,
"First coefficient in equation for clipping plane 0 (`A' in `AX+BY+CZ+D=0')" },
{ F, "Clip0B" , opt_general_clip0b , 0.0 ,
"Second coefficient in equation for clipping plane 0 (`B' in `AX+BY+CZ+D=0')" },
{ F, "Clip0C" , opt_general_clip0c , 0.0 ,
"Third coefficient in equation for clipping plane 0 (`C' in `AX+BY+CZ+D=0')" },
{ F, "Clip0D" , opt_general_clip0d , 0.0 ,
"Fourth coefficient in equation for clipping plane 0 (`D' in `AX+BY+CZ+D=0')" },
{ F, "Clip1A" , opt_general_clip1a , 0.0 ,
"First coefficient in equation for clipping plane 1" },
{ F, "Clip1B" , opt_general_clip1b , 1.0 ,
"Second coefficient in equation for clipping plane 1" },
{ F, "Clip1C" , opt_general_clip1c , 0.0 ,
"Third coefficient in equation for clipping plane 1" },
{ F, "Clip1D" , opt_general_clip1d , 0.0 ,
"Fourth coefficient in equation for clipping plane 1" },
{ F, "Clip2A" , opt_general_clip2a , 0.0 ,
"First coefficient in equation for clipping plane 2" },
{ F, "Clip2B" , opt_general_clip2b , 0.0 ,
"Second coefficient in equation for clipping plane 2" },
{ F, "Clip2C" , opt_general_clip2c , 1.0 ,
"Third coefficient in equation for clipping plane 2" },
{ F, "Clip2D" , opt_general_clip2d , 0.0 ,
"Fourth coefficient in equation for clipping plane 2" },
{ F, "Clip3A" , opt_general_clip3a , -1.0 ,
"First coefficient in equation for clipping plane 3" },
{ F, "Clip3B" , opt_general_clip3b , 0.0 ,
"Second coefficient in equation for clipping plane 3" },
{ F, "Clip3C" , opt_general_clip3c , 0.0 ,
"Third coefficient in equation for clipping plane 3" },
{ F, "Clip3D" , opt_general_clip3d , 1.0 ,
"Fourth coefficient in equation for clipping plane 3" },
{ F, "Clip4A" , opt_general_clip4a , 0.0 ,
"First coefficient in equation for clipping plane 4" },
{ F, "Clip4B" , opt_general_clip4b , -1.0 ,
"Second coefficient in equation for clipping plane 4" },
{ F, "Clip4C" , opt_general_clip4c , 0.0 ,
"Third coefficient in equation for clipping plane 4" },
{ F, "Clip4D" , opt_general_clip4d , 1.0 ,
"Fourth coefficient in equation for clipping plane 4" },
{ F, "Clip5A" , opt_general_clip5a , 0.0 ,
"First coefficient in equation for clipping plane 5" },
{ F, "Clip5B" , opt_general_clip5b , 0.0 ,
"Second coefficient in equation for clipping plane 5" },
{ F, "Clip5C" , opt_general_clip5c , -1.0 ,
"Third coefficient in equation for clipping plane 5" },
{ F, "Clip5D" , opt_general_clip5d , 1.0 ,
"Fourth coefficient in equation for clipping plane 5" },
{ F, "ClipFactor" , opt_general_clip_factor , 5.0 ,
"Near and far clipping plane distance factor (decrease value for better "
"z-buffer resolution)" },
{ F|O, "ClipOnlyDrawIntersectingVolume" , opt_general_clip_only_draw_intersecting_volume , 0. ,
"Only draw layer of elements that intersect the clipping plane" },
{ F|O, "ClipOnlyVolume" , opt_general_clip_only_volume , 0. ,
"Only clip volume elements" },
{ F|S, "ClipPositionX" , opt_general_clip_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the clipping "
"planes window" },
{ F|S, "ClipPositionY" , opt_general_clip_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the clipping "
"planes window" },
{ F|O, "ClipWholeElements" , opt_general_clip_whole_elements , 0. ,
"Clip whole elements" },
{ F|O, "ColorScheme", opt_general_color_scheme , 1. ,
"Default color scheme (0=dark, 1=light or 2=grayscale)" },
{ F|O, "ConfirmOverwrite" , opt_general_confirm_overwrite, 1. ,
"Ask confirmation before overwriting files?" },
{ F|S, "ContextPositionX" , opt_general_context_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the contextual "
"windows" },
{ F|S, "ContextPositionY" , opt_general_context_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the contextual "
"windows" },
{ F|S, "DetachedMenu" , opt_general_detached_menu , 0. ,
"Should the menu window be detached from the graphic window?" },
{ F|O, "DisplayBorderFactor" , opt_general_display_border_factor , 0.2 ,
"Border factor for model display (0: model fits window size exactly)" },
{ F|O, "DoubleBuffer" , opt_general_double_buffer , 1. ,
"Use a double buffered graphic window (on Unix, should be set to 0 when "
"working on a remote host without GLX)" },
{ F|O, "DrawBoundingBoxes" , opt_general_draw_bounding_box, 0. ,
"Draw bounding boxes" },
{ F|O, "ExpertMode" , opt_general_expert_mode, 0. ,
"Enable expert mode (to disable all the messages meant for inexperienced "
"users)" },
{ F|S, "ExtraPositionX" , opt_general_extra_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the generic extra window" },
{ F|S, "ExtraPositionY" , opt_general_extra_position1 , 350. ,
"Vertical position (in pixels) of the upper left corner of the generic extra window" },
{ F|S, "ExtraHeight" , opt_general_extra_size1 , 100. ,
"Height (in pixels) of the generic extra window" },
{ F|S, "ExtraWidth" , opt_general_extra_size0 , 100. ,
"Width (in pixels) of the generic extra window" },
{ F|O, "FastRedraw" , opt_general_fast_redraw, 0. ,
"Draw simplified model while rotating, panning and zooming" },
{ F|S, "FieldPositionX" , opt_general_field_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the field window" },
{ F|S, "FieldPositionY" , opt_general_field_position1 , 550. ,
"Vertical position (in pixels) of the upper left corner of the field window" },
{ F|S, "FieldHeight" , opt_general_field_size1 , 320. ,
"Height (in pixels) of the field window" },
{ F|S, "FieldWidth" , opt_general_field_size0 , 420. ,
"Width (in pixels) of the field window" },
{ F|S, "FileChooserPositionX" , opt_general_file_chooser_position0 , 200. ,
"Horizontal position (in pixels) of the upper left corner of the file chooser "
"windows" },
{ F|S, "FileChooserPositionY" , opt_general_file_chooser_position1 , 200. ,
"Vertical position (in pixels) of the upper left corner of the file chooser "
"windows" },
{ F|O, "FontSize" , opt_general_fontsize , -1. ,
"Size of the font in the user interface (-1=automatic)" },
{ F|O, "GraphicsFontSize" , opt_general_graphics_fontsize , 15. ,
"Size of the font in the graphic window" },
{ F|O, "GraphicsFontSizeTitle" , opt_general_graphics_fontsize_title , 18. ,
"Size of the font in the graphic window for titles" },
{ F|S, "GraphicsHeight" , opt_general_graphics_size1 , 600. ,
"Height (in pixels) of the graphic window" }, { F|S, "GraphicsPositionX" , opt_general_graphics_position0 , 50. ,
"Horizontal position (in pixels) of the upper left corner of the graphic "
"window" },
{ F|S, "GraphicsPositionY" , opt_general_graphics_position1 , 50. ,
"Vertical position (in pixels) of the upper left corner of the graphic "
"window" },
{ F|S, "GraphicsWidth" , opt_general_graphics_size0 , 800. ,
"Width (in pixels) of the graphic window" },
{ F|S, "HighOrderToolsPositionX" , opt_general_hot_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the high order "
"tools window" },
{ F|S, "HighOrderToolsPositionY" , opt_general_hot_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the high order "
"tools window" },
{ F|O, "HighResolutionGraphics" , opt_general_high_resolution_graphics , 1. ,
"Use high-resolution OpenGL graphics (e.g. for Macs with retina displays)" },
{ F|O, "HighResolutionPointSizeFactor" , opt_general_high_resolution_point_size_factor , 2. ,
"Point size factor when using high-resolution OpenGL graphics" },
{ F|O, "InitialModule", opt_general_initial_context, 0. ,
"Module launched on startup (0=automatic, 1=geometry, 2=mesh, 3=solver, "
"4=post-processing) " },
{ F|O, "Light0" , opt_general_light0 , 1. ,
"Enable light source 0" },
{ F|O, "Light0X" , opt_general_light00 , 0.65 ,
"X position of light source 0" },
{ F|O, "Light0Y" , opt_general_light01 , 0.65 ,
"Y position of light source 0" },
{ F|O, "Light0Z" , opt_general_light02 , 1.0 ,
"Z position of light source 0" },
{ F|O, "Light0W" , opt_general_light03 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 0 (W=0 means "
"infinitely far source)" },
{ F|O, "Light1" , opt_general_light1 , 0.,
"Enable light source 1" },
{ F|O, "Light1X" , opt_general_light10 , 0.5 ,
"X position of light source 1" },
{ F|O, "Light1Y" , opt_general_light11 , 0.3 ,
"Y position of light source 1" },
{ F|O, "Light1Z" , opt_general_light12 , 1.0 ,
"Z position of light source 1" },
{ F|O, "Light1W" , opt_general_light13 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 1 (W=0 means infinitely "
"far source)" },
{ F|O, "Light2" , opt_general_light2 , 0.,
"Enable light source 2" },
{ F|O, "Light2X" , opt_general_light20 , 0.5 ,
"X position of light source 2" },
{ F|O, "Light2Y" , opt_general_light21 , 0.3 ,
"Y position of light source 2" },
{ F|O, "Light2Z" , opt_general_light22 , 1.0 ,
"Z position of light source 2" },
{ F|O, "Light2W" , opt_general_light23 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 2 (W=0 means infinitely "
"far source)" },
{ F|O, "Light3" , opt_general_light3 , 0.,
"Enable light source 3" },
{ F|O, "Light3X" , opt_general_light30 , 0.5 ,
"X position of light source 3" },
{ F|O, "Light3Y" , opt_general_light31 , 0.3 ,
"Y position of light source 3" },
{ F|O, "Light3Z" , opt_general_light32 , 1.0 ,
"Z position of light source 3" },
{ F|O, "Light3W" , opt_general_light33 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 3 (W=0 means infinitely "
"far source)" },
{ F|O, "Light4" , opt_general_light4 , 0.,
"Enable light source 4" }, { F|O, "Light4X" , opt_general_light40 , 0.5 ,
"X position of light source 4" },
{ F|O, "Light4Y" , opt_general_light41 , 0.3 ,
"Y position of light source 4" },
{ F|O, "Light4Z" , opt_general_light42 , 1.0 ,
"Z position of light source 4" },
{ F|O, "Light4W" , opt_general_light43 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 4 (W=0 means infinitely "
"far source)" },
{ F|O, "Light5" , opt_general_light5 , 0.,
"Enable light source 5" },
{ F|O, "Light5X" , opt_general_light50 , 0.5 ,
"X position of light source 5" },
{ F|O, "Light5Y" , opt_general_light51 , 0.3 ,
"Y position of light source 5" },
{ F|O, "Light5Z" , opt_general_light52 , 1.0 ,
"Z position of light source 5" },
{ F|O, "Light5W" , opt_general_light53 , 0.0 ,
"Divisor of the X, Y and Z coordinates of light source 5 (W=0 means infinitely "
"far source)" },
{ F|O, "LineWidth" , opt_general_line_width , 1.0 ,
"Display width of lines (in pixels)" },
{ F|S, "ManipulatorPositionX" , opt_general_manip_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the manipulator "
"window" },
{ F|S, "ManipulatorPositionY" , opt_general_manip_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the manipulator "
"window" },
{ F, "MaxX" , opt_general_xmax , 0. ,
"Maximum model coordinate along the X-axis (read-only)" },
{ F, "MaxY" , opt_general_ymax , 0. ,
"Maximum model coordinate along the Y-axis (read-only)" },
{ F, "MaxZ" , opt_general_zmax , 0. ,
"Maximum model coordinate along the Z-axis (read-only)" },
{ F|S, "MenuWidth" , opt_general_menu_size0 , 200. ,
"Width (in pixels) of the menu tree" },
{ F|S, "MenuHeight" , opt_general_menu_size1 , 200. ,
"Height (in pixels) of the (detached) menu tree" },
{ F|S, "MenuPositionX" , opt_general_menu_position0 , 400. ,
"Horizontal position (in pixels) of the (detached) menu tree" },
{ F|S, "MenuPositionY" , opt_general_menu_position1 , 400. ,
"Vertical position (in pixels) of the (detached) menu tree" },
{ F|O, "MessageFontSize" , opt_general_message_fontsize , -1. ,
"Size of the font in the message window (-1=automatic)" },
{ F|S, "MessageHeight" , opt_general_message_size , 300. ,
"Height (in pixels) of the message console when it is visible (should be > 0)" },
{ F, "MinX" , opt_general_xmin , 0. ,
"Minimum model coordinate along the X-axis (read-only)" },
{ F, "MinY" , opt_general_ymin , 0. ,
"Minimum model coordinate along the Y-axis (read-only)" },
{ F, "MinZ" , opt_general_zmin , 0. ,
"Minimum model coordinate along the Z-axis (read-only)" },
{ F|O, "MouseHoverMeshes" , opt_general_mouse_hover_meshes , 0. ,
"Enable mouse hover on meshes" },
{ F|O, "MouseSelection" , opt_general_mouse_selection , 1. ,
"Enable mouse selection" },
{ F|S, "NonModalWindows" , opt_general_non_modal_windows , 1. ,
"Force all control windows to be on top of the graphic window "
"(\"non-modal\")" },
{ F|O, "NoPopup" , opt_general_nopopup , 0. ,
"Disable interactive dialog windows in scripts (and use default values "
"instead)" },
{ F|S, "OptionsPositionX" , opt_general_option_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the option "
"window" },
{ F|S, "OptionsPositionY" , opt_general_option_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the option window" }, { F|O, "Orthographic" , opt_general_orthographic , 1. ,
"Orthographic projection mode (0=perspective projection)" },
{ F|S, "PluginPositionX" , opt_general_plugin_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the plugin "
"window" },
{ F|S, "PluginPositionY" , opt_general_plugin_position1 , 550. ,
"Vertical position (in pixels) of the upper left corner of the plugin window" },
{ F|S, "PluginHeight" , opt_general_plugin_size1 , 320. ,
"Height (in pixels) of the plugin window" },
{ F|S, "PluginWidth" , opt_general_plugin_size0 , 420. ,
"Width (in pixels) of the plugin window" },
{ F|O, "PointSize" , opt_general_point_size , 3. ,
"Display size of points (in pixels)" },
{ F|O, "PolygonOffsetAlwaysOn" , opt_general_polygon_offset_always , 0. ,
"Always apply polygon offset, instead of trying to detect when it is required" },
{ F|O, "PolygonOffsetFactor" , opt_general_polygon_offset_factor ,
#if defined(__APPLE__)
0.5 ,
#else
1.0 ,
#endif
"Polygon offset factor (offset = factor * DZ + r * units)" },
{ F|O, "PolygonOffsetUnits" , opt_general_polygon_offset_units , 1. ,
"Polygon offset units (offset = factor * DZ + r * units)" },
{ F|O, "ProgressMeterStep" , opt_general_progress_meter_step , 20. ,
"Increment (in percent) of the progress meter bar" },
{ F|O, "QuadricSubdivisions" , opt_general_quadric_subdivisions, 6. ,
"Number of subdivisions used to draw points or lines as spheres or cylinders" },
{ F, "RotationX" , opt_general_rotation0 , 0.0 ,
"First Euler angle (used if Trackball=0)" },
{ F, "RotationY" , opt_general_rotation1 , 0.0 ,
"Second Euler angle (used if Trackball=0)" },
{ F, "RotationZ" , opt_general_rotation2 , 0.0 ,
"Third Euler angle (used if Trackball=0)" },
{ F|O, "RotationCenterGravity" , opt_general_rotation_center_cg , 1. ,
"Rotate around the (pseudo) center of mass instead of (RotationCenterX, "
"RotationCenterY, RotationCenterZ)" },
{ F, "RotationCenterX" , opt_general_rotation_center0 , 0.0 ,
"X coordinate of the center of rotation" },
{ F, "RotationCenterY" , opt_general_rotation_center1 , 0.0 ,
"Y coordinate of the center of rotation" },
{ F, "RotationCenterZ" , opt_general_rotation_center2 , 0.0 ,
"Z coordinate of the center of rotation" },
{ F|S, "SaveOptions" , opt_general_options_save, 0. ,
"Automatically save current options in General.OptionsFileName (1) or per model (2)"
"each time you quit Gmsh?" },
{ F|S, "SaveSession" , opt_general_session_save, 1. ,
"Automatically save session specific information in General.SessionFileName "
"each time you quit Gmsh?" },
{ F, "ScaleX" , opt_general_scale0 , 1.0 ,
"X-axis scale factor" },
{ F, "ScaleY" , opt_general_scale1 , 1.0 ,
"Y-axis scale factor" },
{ F, "ScaleZ" , opt_general_scale2 , 1.0 ,
"Z-axis scale factor" },
{ F|O, "Shininess" , opt_general_shine , 0.4 ,
"Material shininess" },
{ F|O, "ShininessExponent" , opt_general_shine_exponent , 40. ,
"Material shininess exponent (between 0 and 128)" },
{ F|O, "SmallAxes" , opt_general_small_axes , 1. ,
"Display the small axes" },
{ F|O, "SmallAxesPositionX" , opt_general_small_axes_position0 , -60. ,
"X position (in pixels) of small axes (< 0: measure from right window edge; >= 1e5:"
" centered)" },
{ F|O, "SmallAxesPositionY" , opt_general_small_axes_position1 , -40. ,
"Y position (in pixels) of small axes (< 0: measure from bottom window edge; >= 1e5:" " centered)" },
{ F|O, "SmallAxesSize" , opt_general_small_axes_size , 30. ,
"Size (in pixels) of small axes" },
{ F|S, "StatisticsPositionX" , opt_general_statistics_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the statistic "
"window" },
{ F|S, "StatisticsPositionY" , opt_general_statistics_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the statistic"
" window" },
{ F|O, "Stereo" , opt_general_stereo_mode , 0. ,
"Use stereo rendering" },
{ F|S, "SystemMenuBar" , opt_general_system_menu_bar , 1. ,
"Use the system menu bar on Mac OS X?" },
{ F|O, "Terminal" , opt_general_terminal , 0. ,
"Should information be printed on the terminal (if available)?" },
{ F|O, "Tooltips" , opt_general_tooltips , 1. ,
"Show tooltips in the user interface" },
{ F|O, "Trackball" , opt_general_trackball , 1. ,
"Use trackball rotation mode" },
{ F|O, "TrackballHyperbolicSheet" , opt_general_trackball_hyperbolic_sheet , 1. ,
"Use hyperbolic sheet away from trackball center for z-rotations" },
{ F, "TrackballQuaternion0" , opt_general_quaternion0 , 0.0 ,
"First trackball quaternion component (used if General.Trackball=1)" },
{ F, "TrackballQuaternion1" , opt_general_quaternion1 , 0.0 ,
"Second trackball quaternion component (used if General.Trackball=1)" },
{ F, "TrackballQuaternion2" , opt_general_quaternion2 , 0.0 ,
"Third trackball quaternion component (used if General.Trackball=1)" },
{ F, "TrackballQuaternion3" , opt_general_quaternion3 , 1.0 ,
"Fourth trackball quaternion component (used if General.Trackball=1)" },
{ F, "TranslationX" , opt_general_translation0 , 0.0 ,
"X-axis translation (in model units)" },
{ F, "TranslationY" , opt_general_translation1 , 0.0 ,
"Y-axis translation (in model units)" },
{ F, "TranslationZ" , opt_general_translation2 , 0.0 ,
"Z-axis translation (in model units)" },
{ F|O, "VectorType" , opt_general_vector_type , 4 ,
"Default vector display type (for normals, etc.)" },
{ F|O, "Verbosity" , opt_general_verbosity , 5. ,
"Level of information printed during processing (0=no information)" },
{ F|S, "VisibilityPositionX" , opt_general_visibility_position0 , 650. ,
"Horizontal position (in pixels) of the upper left corner of the visibility "
"window" },
{ F|S, "VisibilityPositionY" , opt_general_visibility_position1 , 150. ,
"Vertical position (in pixels) of the upper left corner of the visibility "
"window" },
{ F|O, "ZoomFactor" , opt_general_zoom_factor , 4.0 ,
"Middle mouse button zoom acceleration factor" },
{ 0, 0 , 0 , 0. , 0 }
} ;
StringXNumber GeometryOptions_Number[] = {
{ F|O, "AutoCoherence" , opt_geometry_auto_coherence , 1. ,
"Should all duplicate entities be automatically removed? (if ==2, also remove degenerate entities)" },
{ F, "Clip" , opt_geometry_clip , 0.,
"Enable clipping planes? (Plane[i]=2^i, i=0,...,5)" },
{ F|O, "CopyMeshingMethod" , opt_geometry_copy_meshing_method, 0. ,
"Copy meshing method (unstructured or transfinite) when duplicating geometrical entities?" },
{ F|O, "CopyDisplayAttributes" , opt_geometry_copy_display_attributes, 0. ,
"Copy display attributes (visibiliy, color) when duplicating geometrical entities?" },
{ F|O, "ExactExtrusion" , opt_geometry_exact_extrusion, 1. ,
"Use exact extrusion formula in interpolations (set to 0 to allow "
"geometrical transformations of extruded entities)" },
{ F|O, "ExtrudeReturnLateralEntities" , opt_geometry_extrude_return_lateral, 1. ,
"Add lateral entities in lists returned by extrusion commands?" }, { F|O, "ExtrudeSplinePoints" , opt_geometry_extrude_spline_points, 5. ,
"Number of control points for splines created during extrusion" },
{ F|O, "HideCompounds" , opt_geometry_hide_compounds, 1. ,
"Hide entities that make up compound entities?" },
{ F|O, "HighlightOrphans" , opt_geometry_highlight_orphans, 0. ,
"Highlight orphan entities (lines connected to a single surface, etc.)?" },
{ F|O, "LabelType" , opt_geometry_label_type , 1. ,
"Type of entity label (1=elementary number, 2=physical number)" },
{ F|O, "Light" , opt_geometry_light , 1. ,
"Enable lighting for the geometry" },
{ F|O, "LightTwoSide" , opt_geometry_light_two_side , 1. ,
"Light both sides of surfaces (leads to slower rendering)" },
{ F|O, "Lines" , opt_geometry_lines , 1. ,
"Display geometry curves?" },
{ F|O, "LineNumbers" , opt_geometry_lines_num , 0. ,
"Display curve numbers?" },
{ F|O, "LineSelectWidth" , opt_geometry_line_sel_width , 2. ,
"Display width of selected lines (in pixels)" },
{ F|O, "LineType" , opt_geometry_line_type , 0. ,
"Display lines as solid color segments (0), 3D cylinders (1) or tapered "
"cylinders (2)" },
{ F|O, "LineWidth" , opt_geometry_line_width , 2. ,
"Display width of lines (in pixels)" },
{ F|O, "MatchGeomAndMesh" , opt_geometry_match_geom_and_mesh, 0 ,
"Matches geometries and meshes" },
{ F|O, "Normals" , opt_geometry_normals , 0. ,
"Display size of normal vectors (in pixels)" },
{ F|O, "NumSubEdges" , opt_geometry_num_sub_edges , 20. ,
"Number of edge subdivisions between control points when displaying curves" },
{ F|O, "OCCFixDegenerated" , opt_geometry_occ_fix_degenerated , 0. ,
"Fix degenerated edges/faces in STEP, IGES and BRep models" },
{ F|O, "OCCFixSmallEdges" , opt_geometry_occ_fix_small_edges , 0. ,
"Fix small edges in STEP, IGES and BRep models" },
{ F|O, "OCCFixSmallFaces" , opt_geometry_occ_fix_small_faces , 0. ,
"Fix small faces in STEP, IGES and BRep models" },
{ F|O, "OCCSewFaces" , opt_geometry_occ_sew_faces , 0. ,
"Sew faces in STEP, IGES and BRep models" },
{ F|O, "OCCConnectFaces" , opt_geometry_occ_connect_faces , 0. ,
"Cut and connect faces in STEP, IGES and BRep models (0=no, 1=internal, 2=Salome)" },
{ F, "OffsetX" , opt_geometry_offset0 , 0. ,
"Model display offset along X-axis (in model coordinates)" },
{ F, "OffsetY" , opt_geometry_offset1 , 0. ,
"Model display offset along Y-axis (in model coordinates)" },
{ F, "OffsetZ" , opt_geometry_offset2 , 0. ,
"Model display offset along Z-axis (in model coordinates)" },
{ F|O, "OldCircle" , opt_geometry_old_circle , 0. ,
"Use old circle description (compatibility option for old Gmsh geometries)" },
{ F|O, "OldRuledSurface" , opt_geometry_old_ruled_surface , 0. ,
"Use old 3-sided ruled surface interpolation (compatibility option for old Gmsh geometries)" },
{ F|O, "OldNewReg" , opt_geometry_old_newreg , 1. ,
"Use old newreg definition for geometrical transformations (compatibility "
"option for old Gmsh geometries)" },
{ F|O, "Points" , opt_geometry_points , 1. ,
"Display geometry points?" },
{ F|O, "PointNumbers" , opt_geometry_points_num , 0. ,
"Display points numbers?" },
{ F|O, "PointSelectSize" , opt_geometry_point_sel_size , 5. ,
"Display size of selected points (in pixels)" },
{ F|O, "PointSize" , opt_geometry_point_size , 4. ,
"Display size of points (in pixels)" },
{ F|O, "PointType" , opt_geometry_point_type , 0. ,
"Display points as solid color dots (0) or 3D spheres (1)" },
{ F|O, "ScalingFactor" , opt_geometry_scaling_factor , 1.0 , "Global geometry scaling factor" },
{ F|O, "OrientedPhysicals" , opt_geometry_oriented_physicals, 1. ,
"Use sign of elementary entity in physical definition as orientation indicator" },
{ F|O, "SnapX" , opt_geometry_snap0 , 0.1 ,
"Snapping grid spacing along the X-axis" },
{ F|O, "SnapY" , opt_geometry_snap1 , 0.1 ,
"Snapping grid spacing along the Y-axis" },
{ F|O, "SnapZ" , opt_geometry_snap2 , 0.1 ,
"Snapping grid spacing along the Z-axis" },
{ F|O, "Surfaces" , opt_geometry_surfaces , 0. ,
"Display geometry surfaces?" },
{ F|O, "SurfaceNumbers" , opt_geometry_surfaces_num , 0. ,
"Display surface numbers?" },
{ F|O, "SurfaceType" , opt_geometry_surface_type , 2. ,
"Surface display type (0=cross, 1=wireframe, 2=solid)" },
{ F|O, "Tangents" , opt_geometry_tangents , 0. ,
"Display size of tangent vectors (in pixels)" },
{ F|O, "Tolerance" , opt_geometry_tolerance, 1.e-6 ,
"Geometrical tolerance" },
{ F, "Transform" , opt_geometry_transform , 0. ,
"Transform model display coordinates (0=no, 1=scale)" },
{ F, "TransformXX" , opt_geometry_transform00 , 1. ,
"Element (1,1) of the 3x3 model display transformation matrix" },
{ F, "TransformXY" , opt_geometry_transform01 , 0. ,
"Element (1,2) of the 3x3 model display transformation matrix" },
{ F, "TransformXZ" , opt_geometry_transform02 , 0. ,
"Element (1,3) of the 3x3 model display transformation matrix" },
{ F, "TransformYX" , opt_geometry_transform10 , 0. ,
"Element (2,1) of the 3x3 model display transformation matrix" },
{ F, "TransformYY" , opt_geometry_transform11 , 1. ,
"Element (2,2) of the 3x3 model display transformation matrix" },
{ F, "TransformYZ" , opt_geometry_transform12 , 0. ,
"Element (2,3) of the 3x3 model display transformation matrix" },
{ F, "TransformZX" , opt_geometry_transform20 , 0. ,
"Element (3,1) of the 3x3 model display transformation matrix" },
{ F, "TransformZY" , opt_geometry_transform21 , 0. ,
"Element (3,2) of the 3x3 model display transformation matrix" },
{ F, "TransformZZ" , opt_geometry_transform22 , 1. ,
"Element (3,3) of the 3x3 model display transformation matrix" },
{ F|O, "Volumes" , opt_geometry_volumes , 0. ,
"Display geometry volumes? (not implemented yet)" },
{ F|O, "VolumeNumbers" , opt_geometry_volumes_num , 0. ,
"Display volume numbers? (not implemented yet)" },
{ 0, 0 , 0 , 0. , 0 }
} ;
StringXNumber MeshOptions_Number[] = {
{ F|O, "Algorithm" , opt_mesh_algo2d , ALGO_2D_AUTO ,
"2D mesh algorithm (1=MeshAdapt, 2=Automatic, 5=Delaunay, 6=Frontal, 7=bamg, 8=delquad)" },
{ F|O, "Algorithm3D" , opt_mesh_algo3d ,
#if defined(HAVE_TETGEN)
ALGO_3D_DELAUNAY ,
#else
ALGO_3D_FRONTAL ,
#endif
"3D mesh algorithm (1=Delaunay, 4=Frontal, 5=Frontal Delaunay, 6=Frontal Hex, 7=MMG3D, 9=R-tree)" },
{ F|O, "AngleSmoothNormals" , opt_mesh_angle_smooth_normals , 30.0 ,
"Threshold angle below which normals are not smoothed" },
{ F|O, "AnisoMax" , opt_mesh_aniso_max, 1.e33,
"Maximum anisotropy of the mesh" },
{ F|O, "AllowSwapAngle" , opt_mesh_allow_swap_edge_angle , 10.0 ,
"Threshold angle (in degrees) between faces normals under which we allow "
"an edge swap" },
{ F|O, "BdfFieldFormat" , opt_mesh_bdf_field_format , 1. ,
"Field format for Nastran BDF files (0=free, 1=small, 2=large)" },
{ F|O, "Binary" , opt_mesh_binary , 0. , "Write mesh files in binary format (if possible)" },
{ F|O, "Bunin" , opt_mesh_bunin , 0. ,
"Apply Bunin optimization on quad meshes (the parameter is the maximal size of "
"a cavity that may be remeshed)" },
{ F|O, "Lloyd" , opt_mesh_lloyd , 0. ,
"Apply lloyd optimization on surface meshes" },
{ F|O, "SmoothCrossField" , opt_mesh_smooth_cross_field , 0. ,
"Apply n barycentric smoothing passes to the cross field" },
{ F|O, "CgnsImportOrder" , opt_mesh_cgns_import_order , 1. ,
"Enable the creation of high-order mesh from CGNS structured meshes"
"(1, 2, 4, 8, ...)" },
{ F|O, "ChacoArchitecture" , opt_mesh_partition_chaco_architecture, 1. ,
"(Adv. Chaco): Parallel architecture topology (0=hypercube, 1-3=mesh "
"dimensions)" },
{ F|O, "ChacoEigensolver" , opt_mesh_partition_chaco_eigensolver, 1. ,
"(Adv. Chaco): Type of eigensolver for a spectral algorithm (0=Lanczos, "
"1=Multilevel RQI/Symmlq)" },
{ F|O, "ChacoEigTol" , opt_mesh_partition_chaco_eigtol, 1.E-3 ,
"(Adv. Chaco): Tolerance of the eigensolver for spectral or multilevel-KL "
"algorithms" },
{ F|O, "ChacoGlobalMethod" , opt_mesh_partition_chaco_global_method, 1. ,
"Chaco partitioning algorithm (1=Multilevel-KL, 2=Spectral, 4=Linear, "
"5=Random, 6=Scattered)" },
{ F|O, "ChacoHypercubeDim" , opt_mesh_partition_chaco_ndims_tot, 2. ,
"(Adv. Chaco): Dimensional partitioning for a hypercube topology" },
{ F|O, "ChacoLocalMethod" , opt_mesh_partition_chaco_local_method, 1. ,
"(Adv. Chaco): Local partitioning algorithm" },
{ F|O, "ChacoMeshDim1" , opt_mesh_partition_chaco_mesh_dims1, 4. ,
"(Adv. Chaco): Number of partitions in the first dimension of a mesh topology" },
{ F|O, "ChacoMeshDim2" , opt_mesh_partition_chaco_mesh_dims2, 1. ,
"(Adv. Chaco): Number of partitions in the second dimension of a mesh topology" },
{ F|O, "ChacoMeshDim3" , opt_mesh_partition_chaco_mesh_dims3, 1. ,
"(Adv. Chaco): Number of partitions in the third dimension of a mesh topology" },
{ F|O, "ChacoPartitionSection" , opt_mesh_partition_chaco_nsection, 1. ,
"(Adv. Chaco): Partition by (1=bisection, 2=quadrisection, 3=octasection" },
{ F|O, "ChacoSeed" , opt_mesh_partition_chaco_seed, 7654321. ,
"(Adv. Chaco): Seed for random number generator" },
{ F|O, "ChacoVMax" , opt_mesh_partition_chaco_vmax, 250. ,
"(Adv. Chaco): Maximum vertices in a coarse graph (for multilevel-KL "
"algorithm and Multilevel RQI/Symmlq eigensolver)" },
{ F|O, "ChacoParamINTERNAL_VERTICES" ,
opt_mesh_partition_chaco_internal_vertices, 0. ,
"(Adv. Chaco): Parameter INTERNAL_VERTICES" },
{ F|O, "ChacoParamREFINE_MAP" , opt_mesh_partition_chaco_refine_map, 1. ,
"(Adv. Chaco): Parameter REFINE_MAP" },
{ F|O, "ChacoParamREFINE_PARTITION" ,
opt_mesh_partition_chaco_refine_partition, 0. ,
"(Adv. Chaco): Parameter REFINE_PARTITION" },
{ F|O, "ChacoParamTERMINAL_PROPOGATION" ,
opt_mesh_partition_chaco_terminal_propogation, 0. ,
"(Adv. Chaco): Parameter TERMINAL_PROPOGATION" },
{ F|O, "CharacteristicLengthExtendFromBoundary" ,
opt_mesh_lc_extend_from_boundary, 1. ,
"Extend computation of mesh element sizes from the boundaries into the surfaces/volumes" },
{ F|O, "CharacteristicLengthFactor" , opt_mesh_lc_factor , 1.0 ,
"Factor applied to all mesh element sizes" },
{ F|O, "CharacteristicLengthMin" , opt_mesh_lc_min, 0.0 ,
"Minimum mesh element size" },
{ F|O, "CharacteristicLengthMax" , opt_mesh_lc_max, 1.e22,
"Maximum mesh element size" },
{ F|O, "CharacteristicLengthFromCurvature" , opt_mesh_lc_from_curvature , 0. ,
"Automatically compute mesh element sizes from curvature (experimental)" },
{ F|O, "CharacteristicLengthFromPoints" , opt_mesh_lc_from_points , 1. ,
"Compute mesh element sizes from values given at geometry points" },
{ F, "Clip" , opt_mesh_clip , 0.,
"Enable clipping planes? (Plane[i]=2^i, i=0,...,5)" },
{ F|O, "ColorCarousel" , opt_mesh_color_carousel , 1. ,
"Mesh coloring (0=by element type, 1=by elementary entity, 2=by physical "
"entity, 3=by partition)" }, { F, "CpuTime" , opt_mesh_cpu_time , 0. ,
"CPU time (in seconds) for the generation of the current mesh (read-only)" },
{ F|O, "DrawSkinOnly" , opt_mesh_draw_skin_only , 0. ,
"Draw only the skin of 3D meshes?" },
{ F|O, "Dual" , opt_mesh_dual , 0. ,
"Display the dual mesh obtained by barycentric subdivision" },
{ F|O, "ElementOrder" , opt_mesh_order , 1. ,
// "Order" is a reserved token in the parser
"Element order (1=linear elements, N (<6) = elements of higher order)" },
{ F|O, "Explode" , opt_mesh_explode , 1.0 ,
"Element shrinking factor (between 0 and 1)" },
{ F|O, "FlexibleTransfinite" , opt_mesh_flexible_transfinite , 0 ,
"Allow transfinite contraints to be modified for Blossom or by global mesh size factor" },
{ F|O, "NewtonConvergenceTestXYZ" , opt_mesh_newton_convergence_test_xyz , 0. ,
"Force inverse surface mapping algorithm (Newton-Raphson) to converge in real coordinates (experimental)" },
{ F|O, "Format" , opt_mesh_file_format , FORMAT_AUTO ,
"Mesh output format (1=msh, 2=unv, 10=automatic, 19=vrml, 27=stl, 30=mesh, 31=bdf, "
"32=cgns, 33=med, 40=ply2)" },
{ F|O, "Hexahedra" , opt_mesh_hexahedra , 1. ,
"Display mesh hexahedra?" },
{ F|0, "HighOrderNumLayers", opt_mesh_ho_nlayers, 6.,
"Number of high order mesh elements to consider for optimization"},
{ F|O, "HighOrderOptimize" , opt_mesh_ho_optimize , 0.,
"Optimize high order meshes?" },
{ F|0, "HighOrderPoissonRatio", opt_mesh_ho_poisson, 0.33,
"Poisson ratio of the material used in the elastic smoother for high order meshes"
"Must be between -1.0 and 0.5, excluded"},
{ F|O, "HighOrderThresholdMin", opt_mesh_ho_threshold_min, 0.1,
"Minimum threshold for high order element optimization"},
{ F|O, "HighOrderThresholdMax", opt_mesh_ho_threshold_max, 2.0,
"Maximum threshold for high order element optimization"},
{ F|O, "HighOrderOptPrimSurfMesh", opt_mesh_ho_opt_prim_surf_mesh, 0,
"Try to fix flipped surface mesh elements in high-order optimizer"},
{ F|O, "LabelSampling" , opt_mesh_label_sampling , 1. ,
"Label sampling rate (display one label every `LabelSampling' elements)" },
{ F|O, "LabelType" , opt_mesh_label_type , 0. ,
"Type of element label (0=element number, 1=elementary entity number, "
"2=physical entity number, 3=partition number, 4=coordinates)" },
{ F|O, "LcIntegrationPrecision" , opt_mesh_lc_integration_precision, 1.e-9 ,
"Accuracy of evaluation of the LC field for 1D mesh generation" },
{ F|O, "Light" , opt_mesh_light , 1. ,
"Enable lighting for the mesh" },
{ F|O, "LightLines" , opt_mesh_light_lines , 1. ,
"Enable lighting for mesh lines (element edges)" },
{ F|O, "LightTwoSide" , opt_mesh_light_two_side , 1. ,
"Light both sides of surfaces (leads to slower rendering)" },
{ F|O, "Lines" , opt_mesh_lines , 0. ,
"Display mesh lines (1D elements)?" },
{ F|O, "LineNumbers" , opt_mesh_lines_num , 0. ,
"Display mesh line numbers?" },
{ F|O, "LineWidth" , opt_mesh_line_width , 1.0 ,
"Display width of mesh lines (in pixels)" },
{ F|O, "MeshOnlyVisible" , opt_mesh_mesh_only_visible, 0. ,
"Mesh only visible entities (experimental: use with caution!)" },
{ F|O, "MetisAlgorithm" , opt_mesh_partition_metis_algorithm, 1. ,
"METIS partitioning algorithm (1=Recursive, 2=K-way, 3=Nodal weight)" },
{ F|O, "MetisEdgeMatching" , opt_mesh_partition_metis_edge_matching, 3. ,
"(Adv. METIS): Determines the matching type (1=Random, 2=Heavy-Edge, "
"3=Sorted Heavy-Edge)" },
{ F|O, "MetisRefinementAlgorithm" , opt_mesh_partition_metis_refine_algorithm, 3. ,
"(Adv. METIS): Algorithm for k-way refinement (1=Random, 2=Greedy, "
"3=Random with minimized connectivity)" },
{ F|O, "MinimumCirclePoints" , opt_mesh_min_circ_points, 7. ,
"Minimum number of points used to mesh a circle" }, { F|O, "MinimumCurvePoints" , opt_mesh_min_curv_points, 3. ,
"Minimum number of points used to mesh a (non-straight) curve" },
{ F|O, "MshFileVersion" , opt_mesh_msh_file_version , 2.2 ,
"Version of the MSH file format to use" },
{ F|O, "MshFilePartitioned" , opt_mesh_msh_file_partitioned , 0. ,
"Split MSH file by mesh partition (0: no, 1: yes, 2: create physicals by partition)" },
{ F|O, "PartitionHexWeight" , opt_mesh_partition_hex_weight , 1 ,
"Weight of hexahedral element for METIS load balancing" },
{ F|O, "PartitionPrismWeight" , opt_mesh_partition_pri_weight , 1 ,
"Weight of prismatic element (wedge) for METIS load balancing" },
{ F|O, "PartitionPyramidWeight" , opt_mesh_partition_pyr_weight , 1 ,
"Weight of pyramidal element for METIS load balancing" },
{ F|O, "PartitionQuadWeight" , opt_mesh_partition_qua_weight , 1 ,
"Weight of quadrangle for METIS load balancing" },
{ F|O, "PartitionTetWeight" , opt_mesh_partition_tet_weight , 1 ,
"Weight of tetrahedral element for METIS load balancing" },
{ F|O, "PartitionTriWeight" , opt_mesh_partition_tri_weight , 1 ,
"Weight of triangle for METIS load balancing" ,},
{ F, "NbHexahedra" , opt_mesh_nb_hexahedra , 0. ,
"Number of hexahedra in the current mesh (read-only)" },
{ F, "NbNodes" , opt_mesh_nb_nodes , 0. ,
"Number of nodes in the current mesh (read-only)" },
{ F|O, "NbPartitions" , opt_mesh_partition_num, 1. ,
"Number of partitions" },
{ F, "NbPrisms" , opt_mesh_nb_prisms , 0. ,
"Number of prisms in the current mesh (read-only)" },
{ F, "NbPyramids" , opt_mesh_nb_pyramids , 0. ,
"Number of pyramids in the current mesh (read-only)" },
{ F, "NbQuadrangles" , opt_mesh_nb_quadrangles , 0. ,
"Number of quadrangles in the current mesh (read-only)" },
{ F, "NbTetrahedra" , opt_mesh_nb_tetrahedra , 0. ,
"Number of tetrahedra in the current mesh (read-only)" },
{ F, "NbTriangles" , opt_mesh_nb_triangles , 0. ,
"Number of triangles in the current mesh (read-only)" },
{ F|O, "Normals" , opt_mesh_normals , 0.0 ,
"Display size of normal vectors (in pixels)" },
{ F|O, "NumSubEdges" , opt_mesh_num_sub_edges , 2. ,
"Number of edge subdivisions when displaying high order elements" },
{ F|O, "Optimize" , opt_mesh_optimize , 0. ,
"Optimize the mesh to improve the quality of tetrahedral elements" },
{ F|O, "OptimizeNetgen" , opt_mesh_optimize_netgen , 0. ,
"Optimize the mesh using Netgen to improve the quality of tetrahedral "
"elements" },
{ F|O, "Partitioner" , opt_mesh_partition_partitioner, 2. ,
"Partitioner software (1=Chacho, 2=METIS)" },
{ F|O, "Points" , opt_mesh_points , 0. ,
"Display mesh vertices (nodes)?" },
{ F|O, "PointNumbers" , opt_mesh_points_num , 0. ,
"Display mesh node numbers?" },
{ F|O, "PointSize" , opt_mesh_point_size , 4. ,
"Display size of mesh vertices (in pixels)" },
{ F|O, "PointType" , opt_mesh_point_type , 0. ,
"Display mesh vertices as solid color dots (0) or 3D spheres (1)" },
{ F|O, "Prisms" , opt_mesh_prisms , 1. ,
"Display mesh prisms?" },
{ F|O, "Pyramids" , opt_mesh_pyramids , 1. ,
"Display mesh pyramids?" },
{ F|O, "Quadrangles" , opt_mesh_quadrangles , 1. ,
"Display mesh quadrangles?" },
{ F|O, "QualityInf" , opt_mesh_quality_inf , 0.0 ,
"Only display elements whose quality measure is greater than QualityInf" },
{ F|O, "QualitySup" , opt_mesh_quality_sup , 0.0 ,
"Only display elements whose quality measure is smaller than QualitySup" },
{ F|O, "QualityType" , opt_mesh_quality_type , 2. ,
"Type of quality measure (0=gamma~vol/sum_face/max_edge, "
"1=eta~vol^(2/3)/sum_edge^2, 2=rho~min_edge/max_edge)" },
{ F|O, "RadiusInf" , opt_mesh_radius_inf , 0.0 ,
"Only display elements whose longest edge is greater than RadiusInf" },
{ F|O, "RadiusSup" , opt_mesh_radius_sup , 0.0 ,
"Only display elements whose longest edge is smaller than RadiusSup" },
{ F|O, "RandomFactor" , opt_mesh_rand_factor , 1.e-9 ,
"Random factor used in the 2D meshing algorithm (should be increased if "
"RandomFactor * size(triangle)/size(model) approaches machine accuracy)" },
{ F|O, "IgnorePartitionBoundary" , opt_mesh_ignore_part_bound , 0. ,
"Ignore partitions boundaries (0=no, 1=yes)"},
#if defined(HAVE_BLOSSOM)
{ F|O, "RecombinationAlgorithm" , opt_mesh_algo_recombine , 1 ,
#else
{ F|O, "RecombinationAlgorithm" , opt_mesh_algo_recombine , 0 ,
#endif
"Mesh recombination algorithm (0=standard, 1=blossom)" },
{ F|O, "RecombineAll" , opt_mesh_recombine_all , 0 ,
"Apply recombination algorithm to all surfaces, ignoring per-surface spec" },
{ F|O, "Recombine3DAll" , opt_mesh_recombine3d_all , 0 ,
"Apply recombination3D algorithm to all volumes, ignoring per-volume spec" },
{ F|O, "DoRecombinationTest" , opt_mesh_do_recombination_test , 0 ,
"Apply recombination algorithm for test" },
{ F|O, "RecombinationTestHorizStart" , opt_mesh_recombination_test_start , 1 ,
"Depth start" },
{ F|O, "RecombinationTestNoGreedyStrat" , opt_mesh_recombination_no_greedy_strat , 0 ,
"No greedy (global) strategies" },
{ F|O, "RecombinationTestNewStrat" , opt_mesh_recombination_new_strat , 0 ,
"New strategies" },
{ F|O, "RemeshAlgorithm" , opt_mesh_remesh_algo , 0 ,
"Remeshing algorithm (0=no split, 1=automatic, 2=automatic only with metis)" },
{ F|O, "RemeshParametrization" , opt_mesh_remesh_param , 4 ,
"Remeshing using discrete parametrization (0=harmonic_circle, 1=conformal_spectral, 2=rbf, 3=harmonic_plane, 4=convex_circle, 5=convex_plane, 6=harmonic square, 7=conformal_fe" },
{ F|O, "RefineSteps" , opt_mesh_refine_steps , 10 ,
"Number of refinement steps in the MeshAdapt-based 2D algorithms" },
{ F|O, "Remove4Triangles" , opt_mesh_remove_4_triangles , 0 ,
"Try to remove nodes surrounded by 4 triangles in 2D triangular meshes" },
{ F|O, "ReverseAllNormals" , opt_mesh_reverse_all_normals , 0. ,
"Reverse all the mesh normals (for display)" },
{ F, "SaveAll" , opt_mesh_save_all , 0. ,
"Ignore Physical definitions and save all elements" },
{ F|O, "SaveElementTagType" , opt_mesh_save_element_tag_type , 1. ,
"Type of the element tag saved in mesh formats that don't support saving "
"physical or partition ids (1=elementary, 2=physical, 3=partition)" },
{ F|O, "SaveParametric" , opt_mesh_save_parametric , 0. ,
"Save parametric coordinates of nodes" },
{ F|O, "SaveGroupsOfNodes" , opt_mesh_save_groups_of_nodes , 0. ,
"Save groups of nodes for each physical line and surface (UNV mesh "
"format only)" },
{ F|O, "ScalingFactor" , opt_mesh_scaling_factor , 1.0 ,
"Global scaling factor applied to the saved mesh" },
{ F|O, "SecondOrderExperimental" , opt_mesh_second_order_experimental , 0. ,
"Use experimental code to generate second order mesh" },
{ F|O, "SecondOrderIncomplete" , opt_mesh_second_order_incomplete , 0. ,
"Create incomplete second order elements? (8-node quads, 20-node hexas, etc.)" },
{ F|O, "SecondOrderLinear" , opt_mesh_second_order_linear , 0. ,
"Should second order vertices simply be created by linear interpolation?" },
{ F|O, "Smoothing" , opt_mesh_nb_smoothing , 1. ,
"Number of smoothing steps applied to the final mesh" },
{ F|O, "SmoothNormals" , opt_mesh_smooth_normals , 0. ,
"Smooth the mesh normals?" },
{ F|O, "SmoothRatio" , opt_mesh_smooth_ratio , 1.8 ,
"Ratio between mesh sizes at vertices of a same edeg (used in BAMG)" },
{ F|O, "SubdivisionAlgorithm" , opt_mesh_algo_subdivide , 0 ,
"Mesh subdivision algorithm (0=none, 1=all quadrangles, 2=all hexahedra)" },
{ F|O, "SurfaceEdges" , opt_mesh_surfaces_edges , 1. ,
"Display edges of surface mesh?" },
{ F|O, "SurfaceFaces" , opt_mesh_surfaces_faces , 0. ,
"Display faces of surface mesh?" }, { F|O, "SurfaceNumbers" , opt_mesh_surfaces_num , 0. ,
"Display surface mesh element numbers?" },
{ F|O, "SwitchElementTags", opt_mesh_switch_elem_tags, 0. ,
"Invert elementary and physical tags when reading the mesh"},
{ F|O, "Tangents" , opt_mesh_tangents , 0.0 ,
"Display size of tangent vectors (in pixels)" },
{ F|O, "Tetrahedra" , opt_mesh_tetrahedra , 1. ,
"Display mesh tetrahedra?" },
{ F|O, "ToleranceEdgeLength" , opt_mesh_tolerance_edge_length, 0.0,
"Skip a model edge in mesh generation if its length is less than user's "
"defined tolerance" },
{ F|O, "ToleranceInitialDelaunay" , opt_mesh_tolerance_initial_delaunay, 1.e-8,
"Tolerance for initial 3D Delaunay mesher" },
{ F|O, "Triangles" , opt_mesh_triangles , 1. ,
"Display mesh triangles?" },
{ F|O, "VolumeEdges" , opt_mesh_volumes_edges , 1. ,
"Display edges of volume mesh?" },
{ F|O, "VolumeFaces" , opt_mesh_volumes_faces , 0. ,
"Display faces of volume mesh?" },
{ F|O, "VolumeNumbers" , opt_mesh_volumes_num , 0. ,
"Display volume mesh element numbers?" },
{ F|O, "Voronoi" , opt_mesh_voronoi , 0. ,
"Display the voronoi diagram" },
{ F|O, "ZoneDefinition" , opt_mesh_zone_definition , 0. ,
"Method for defining a zone (0=single zone, 1=by partition, 2=by physical)" },
{ 0, 0 , 0 , 0. , 0 }
} ;
StringXNumber SolverOptions_Number[] = {
{ F|O, "AlwaysListen" , opt_solver_listen , 0. ,
"Always listen to incoming connection requests?" },
{ F|O, "AutoArchiveOutputFiles" , opt_solver_auto_archive_output_files , 0. ,
"Automatically archive output files after each computation" },
{ F|O, "AutoCheck" , opt_solver_auto_check , 1. ,
"Automatically check model every time a parameter is changed" },
{ F|O, "AutoSaveDatabase" , opt_solver_auto_save_database , 0. ,
"Automatically save database after each computation" },
{ F|O, "AutoMesh" , opt_solver_auto_mesh , 1. ,
"Automatically mesh if necesssary (0: never remesh; 1: on startup, use existing "
"mesh on disk if available; 2: always remesh)" },
{ F|O, "AutoMergeFile" , opt_solver_auto_merge_file , 1. ,
"Automatically merge result files" },
{ F|O, "AutoShowViews" , opt_solver_auto_show_views , 2. ,
"Automcatically show newly merged results (0: none; 1: all; 2: last one)" },
{ F|O, "AutoShowLastStep" , opt_solver_auto_show_last_step , 1. ,
"Automatically show the last time step in newly merged results" },
{ F|O, "Plugins" , opt_solver_plugins , 0. ,
"Enable default solver plugins?" },
{ F|O, "ShowInvisibleParameters" , opt_solver_show_invisible_parameters , 0. ,
"Show all parameters, even those marked invisible" },
{ F|O, "Timeout" , opt_solver_timeout , 5. ,
"Time (in seconds) before closing the socket if no connection is happening" },
{ 0, 0 , 0 , 0. , 0 }
} ;
StringXNumber PostProcessingOptions_Number[] = {
{ F|O, "AnimationDelay" , opt_post_anim_delay , 0.1 ,
"Delay (in seconds) between frames in automatic animation mode" },
{ F|O, "AnimationCycle" , opt_post_anim_cycle , 0. ,
"Cycle through time steps (0) or views (1) for animations" },
{ F|O, "AnimationStep" , opt_post_anim_step , 1. ,
"Step increment for animations" },
{ F|O, "CombineRemoveOriginal" , opt_post_combine_remove_orig , 1. ,
"Remove original views after a Combine operation" },
{ F|O, "ForceNodeData" , opt_post_force_node_data , 0. ,
"Try to force saving datasets as NodeData" },
{ F|O, "Format" , opt_post_file_format , 10. ,
"Default file format for post-processing views (0=ASCII view, 1=binary "
"view, 2=parsed view, 3=STL triangulation, 4=raw text, 5=Gmsh mesh, 6=MED file, "
"10=automatic)" },
{ F|O, "GraphPointX" , opt_post_graph_point_x , 0. ,
"Abscissa of last selected graph point" },
{ F|O, "GraphPointY" , opt_post_graph_point_y , 0. ,
"Ordinate of last selected graph point" },
{ F|O, "HorizontalScales" , opt_post_horizontal_scales , 1. ,
"Display value scales horizontally" },
{ F|O, "Link" , opt_post_link , 0. ,
"Post-processing view links (0=apply next option changes to selected views, "
"1=force same options for all selected views)" },
{ F, "NbViews" , opt_post_nb_views , 0. ,
"Current number of views merged (read-only)" },
{ F|O, "Plugins" , opt_post_plugins , 1. ,
"Enable default post-processing plugins?" },
{ F|O, "Smoothing" , opt_post_smooth , 0. ,
"Apply (non-reversible) smoothing to post-processing view when merged" },
{ 0, 0 , 0 , 0. }
} ;
StringXNumber ViewOptions_Number[] = {
{ F|O, "AbscissaRangeType" , opt_view_abscissa_range_type , 1 ,
"Ascissa scale range type (1=default, 2=custom)" },
{ F|O, "AdaptVisualizationGrid" , opt_view_adapt_visualization_grid , 0. ,
"Use adaptive visualization grid (for high-order elements)?" },
{ F|O, "AngleSmoothNormals" , opt_view_angle_smooth_normals , 30.0 ,
"Threshold angle below which normals are not smoothed" },
{ F|O, "ArrowSizeMax" , opt_view_arrow_size_max , 60. ,
"Maximum display size of arrows (in pixels)" },
{ F|O, "ArrowSizeMin" , opt_view_arrow_size_min , 0. ,
"Minimum display size of arrows (in pixels)" },
{ F|O, "AutoPosition" , opt_view_auto_position , 1. ,
"Position the scale or 2D plot automatically (0: manual, 1: automatic, 2: top left, "
"3: top right, 4: bottom left, 5: bottom right, 6: top, 7: bottom, 8: left, 9: right, "
"10: full, 11: top third, 12: in model coordinates)" },
{ F|O, "Axes" , opt_view_axes , 0 ,
"Axes (0=none, 1=simple axes, 2=box, 3=full grid, 4=open grid, 5=ruler)" },
{ F|O, "AxesMikado" , opt_view_axes_mikado , 0. ,
"Mikado axes style" },
{ F|O, "AxesAutoPosition" , opt_view_axes_auto_position , 1. ,
"Position the axes automatically" },
{ F|O, "AxesMaxX" , opt_view_axes_xmax , 1. ,
"Maximum X-axis coordinate" },
{ F|O, "AxesMaxY" , opt_view_axes_ymax , 1. ,
"Maximum Y-axis coordinate" },
{ F|O, "AxesMaxZ" , opt_view_axes_zmax , 1. ,
"Maximum Z-axis coordinate" },
{ F|O, "AxesMinX" , opt_view_axes_xmin , 0. ,
"Minimum X-axis coordinate" },
{ F|O, "AxesMinY" , opt_view_axes_ymin , 0. ,
"Minimum Y-axis coordinate" },
{ F|O, "AxesMinZ" , opt_view_axes_zmin , 0. ,
"Minimum Z-axis coordinate" },
{ F|O, "AxesTicsX" , opt_view_axes_tics0 , 5. ,
"Number of tics on the X-axis" }, { F|O, "AxesTicsY" , opt_view_axes_tics1 , 5. ,
"Number of tics on the Y-axis" },
{ F|O, "AxesTicsZ" , opt_view_axes_tics2 , 5. ,
"Number of tics on the Z-axis" },
{ F|O, "Boundary" , opt_view_boundary , 0. ,
"Draw the `N minus b'-dimensional boundary of the element (N=element "
"dimension, b=option value)" },
{ F|O, "CenterGlyphs" , opt_view_center_glyphs , 1,
"Center glyphs (arrows, numbers, etc.)? (0=left, 1=centered, 2=right)" },
{ F, "Clip" , opt_view_clip , 0.,
"Enable clipping planes? (Plane[i]=2^i, i=0,...,5)" },
{ F|O, "ColormapAlpha" , opt_view_colormap_alpha , 1.0 ,
"Colormap alpha channel value (used only if != 1)" },
{ F|O, "ColormapAlphaPower" , opt_view_colormap_alpha_power , 0.0 ,
"Colormap alpha channel power" },
{ F|O, "ColormapBeta" , opt_view_colormap_beta , 0.0 ,
"Colormap beta parameter (gamma = 1-beta)" },
{ F|O, "ColormapBias" , opt_view_colormap_bias , 0.0 ,
"Colormap bias" },
{ F|O, "ColormapCurvature" , opt_view_colormap_curvature , 0.0 ,
"Colormap curvature or slope coefficient" },
{ F|O, "ColormapInvert" , opt_view_colormap_invert , 0. ,
"Invert the color values, i.e., replace x with (255-x) in the colormap?" },
{ F|O, "ColormapNumber" , opt_view_colormap_number , 2. ,
"Default colormap number" },
{ F|O, "ColormapRotation" , opt_view_colormap_rotation , 0. ,
"Incremental colormap rotation" },
{ F|O, "ColormapSwap" , opt_view_colormap_swap , 0. ,
"Swap the min/max values in the colormap?" },
{ F|O, "ComponentMap0" , opt_view_component_map0 , 0,
"Forced component 0 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap1" , opt_view_component_map1 , 1,
"Forced component 1 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap2" , opt_view_component_map2 , 2,
"Forced component 2 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap3" , opt_view_component_map3 , 3,
"Forced component 3 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap4" , opt_view_component_map4 , 4,
"Forced component 4 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap5" , opt_view_component_map5 , 5,
"Forced component 5 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap6" , opt_view_component_map6 , 6,
"Forced component 6 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap7" , opt_view_component_map7 , 7,
"Forced component 7 (if View.ForceComponents > 0)" },
{ F|O, "ComponentMap8" , opt_view_component_map8 , 8,
"Forced component 8 (if View.ForceComponents > 0)" },
{ F, "CustomAbscissaMax" , opt_view_custom_abscissa_max , 0. ,
"User-defined maximum abscissa value" },
{ F, "CustomAbscissaMin" , opt_view_custom_abscissa_min , 0. ,
"User-defined minimum abscissa value" },
{ F, "CustomMax" , opt_view_custom_max , 0. ,
"User-defined maximum value to be displayed" },
{ F, "CustomMin" , opt_view_custom_min , 0. ,
"User-defined minimum value to be displayed" },
{ F|O, "DisplacementFactor" , opt_view_displacement_factor , 1. ,
"Displacement amplification" },
{ F|O, "DrawHexahedra" , opt_view_draw_hexahedra , 1. ,
"Display post-processing hexahedra?" },
{ F|O, "DrawLines" , opt_view_draw_lines , 1. ,
"Display post-processing lines?" },
{ F|O, "DrawPoints" , opt_view_draw_points , 1. ,
"Display post-processing points?" },
{ F|O, "DrawPrisms" , opt_view_draw_prisms , 1. ,
"Display post-processing prisms?" },
{ F|O, "DrawPyramids" , opt_view_draw_pyramids , 1. ,
"Display post-processing pyramids?" }, { F|O, "DrawQuadrangles" , opt_view_draw_quadrangles , 1. ,
"Display post-processing quadrangles?" },
{ F|O, "DrawScalars" , opt_view_draw_scalars , 1. ,
"Display scalar values?" },
{ F|O, "DrawSkinOnly" , opt_view_draw_skin_only , 0. ,
"Draw only the skin of 3D scalar views?" },
{ F|O, "DrawStrings" , opt_view_draw_strings , 1. ,
"Display post-processing annotation strings?" },
{ F|O, "DrawTensors" , opt_view_draw_tensors , 1. ,
"Display tensor values?" },
{ F|O, "DrawTetrahedra" , opt_view_draw_tetrahedra , 1. ,
"Display post-processing tetrahedra?" },
{ F|O, "DrawTriangles" , opt_view_draw_triangles , 1. ,
"Display post-processing triangles?" },
{ F|O, "DrawVectors" , opt_view_draw_vectors , 1. ,
"Display vector values?" },
{ F|O, "Explode" , opt_view_explode , 1. ,
"Element shrinking factor (between 0 and 1)" },
{ F|O, "ExternalView" , opt_view_external_view , -1. ,
"Index of the view used to color vector fields (-1=self)" },
{ F|O, "FakeTransparency" , opt_view_fake_transparency , 0. ,
"Use fake transparency (cheaper than the real thing, but incorrect)" },
{ F|O, "ForceNumComponents" , opt_view_force_num_components , 0. ,
"Force number of components to display (see View.ComponentMapN for mapping)" },
{ F|O, "GeneralizedRaiseFactor" , opt_view_gen_raise_factor , 1. ,
"Generalized raise amplification factor" },
{ F|O, "GeneralizedRaiseView" , opt_view_gen_raise_view , -1. ,
"Index of the view used for generalized raise (-1=self)" },
{ F|O, "GlyphLocation" , opt_view_glyph_location , 1,
"Glyph (arrow, number, etc.) location (1=center of gravity, 2=node)" },
{ F|O, "Height" , opt_view_size1 , 200. ,
"Height (in pixels) of the scale or 2D plot" },
{ F|O, "IntervalsType" , opt_view_intervals_type , 2 ,
"Type of interval display (1=iso, 2=continuous, 3=discrete, 4=numeric)" },
{ F|O, "Light" , opt_view_light , 1. ,
"Enable lighting for the view" },
{ F|O, "LightLines" , opt_view_light_lines , 1. ,
"Light element edges" },
{ F|O, "LightTwoSide" , opt_view_light_two_side , 1. ,
"Light both sides of surfaces (leads to slower rendering)" },
{ F|O, "LineType" , opt_view_line_type , 0. ,
"Display lines as solid color segments (0) or 3D cylinders (1)" },
{ F|O, "LineWidth" , opt_view_line_width , 1.0 ,
"Display width of lines (in pixels)" },
{ F|O, "MaxRecursionLevel" , opt_view_max_recursion_level , 0. ,
"Maximum recursion level for adaptive views" },
{ F, "Max" , opt_view_max , 0. ,
"Maximum value in the view (read-only)" },
{ F, "MaxVisible" , opt_view_max_visible , 0. ,
"Maximum value in the visible parts of the view (read-only)" },
{ F, "MaxX" , opt_view_xmax , 0. ,
"Maximum view coordinate along the X-axis (read-only)" },
{ F, "MaxY" , opt_view_ymax , 0. ,
"Maximum view coordinate along the Y-axis (read-only)" },
{ F, "MaxZ" , opt_view_zmax , 0. ,
"Maximum view coordinate along the Z-axis (read-only)" },
{ F, "Min" , opt_view_min , 0. ,
"Minimum value in the view (read-only)" },
{ F, "MinVisible" , opt_view_min_visible , 0. ,
"Minimum value in the visible parts of the view (read-only)" },
{ F, "MinX" , opt_view_xmin , 0. ,
"Minimum view coordinate along the X-axis (read-only)" },
{ F, "MinY" , opt_view_ymin , 0. , "Minimum view coordinate along the Y-axis (read-only)" },
{ F, "MinZ" , opt_view_zmin , 0. ,
"Minimum view coordinate along the Z-axis (read-only)" },
{ F|O, "NbIso" , opt_view_nb_iso , 10. ,
"Number of intervals" },
{ F, "NbTimeStep" , opt_view_nb_timestep , 1. ,
"Number of time steps in the view (do not change this!)" },
{ F, "NormalRaise" , opt_view_normal_raise , 0. ,
"Elevation of the view along the normal (in model coordinates)" },
{ F|O, "Normals" , opt_view_normals , 0. ,
"Display size of normal vectors (in pixels)" },
{ F, "OffsetX" , opt_view_offset0 , 0. ,
"Translation of the view along X-axis (in model coordinates)" },
{ F, "OffsetY" , opt_view_offset1 , 0. ,
"Translation of the view along Y-axis (in model coordinates)" },
{ F, "OffsetZ" , opt_view_offset2 , 0. ,
"Translation of the view along Z-axis (in model coordinates)" },
{ F|O, "PointSize" , opt_view_point_size , 3. ,
"Display size of points (in pixels)" },
{ F|O, "PointType" , opt_view_point_type , 0. ,
"Display points as solid color dots (0), 3D spheres (1), scaled dots "
"(2) or scaled spheres (3)" },
{ F|O, "PositionX" , opt_view_position0 , 100. ,
"X position (in pixels) of the scale or 2D plot (< 0: measure from right "
"edge; >= 1e5: centered)" },
{ F|O, "PositionY" , opt_view_position1 , 50. ,
"Y position (in pixels) of the scale or 2D plot (< 0: measure from bottom "
"edge; >= 1e5: centered)" },
{ F, "RaiseX" , opt_view_raise0 , 0. ,
"Elevation of the view along X-axis (in model coordinates)" },
{ F, "RaiseY" , opt_view_raise1 , 0. ,
"Elevation of the view along Y-axis (in model coordinates)" },
{ F, "RaiseZ" , opt_view_raise2 , 0. ,
"Elevation of the view along Z-axis (in model coordinates)" },
{ F|O, "RangeType" , opt_view_range_type , 1 ,
"Value scale range type (1=default, 2=custom, 3=per time step)" },
{ F|O, "Sampling" , opt_view_sampling , 1. ,
"Element sampling rate (draw one out every `Sampling' elements)" },
{ F|O, "SaturateValues" , opt_view_saturate_values , 0. ,
"Saturate the view values to custom min and max (1=true, 0=false)" },
{ F|O, "ScaleType" , opt_view_scale_type , 1 ,
"Value scale type (1=linear, 2=logarithmic, 3=double logarithmic)" },
{ F|O, "ShowElement" , opt_view_show_element , 0. ,
"Show element boundaries?" },
{ F|O, "ShowScale" , opt_view_show_scale , 1. ,
"Show value scale?" },
{ F|O, "ShowTime" , opt_view_show_time , 3. ,
"Time display mode (0=hidden, 1=time value if multi-step, 2=time value always, "
"3=time step if multi-step, 4=time step always)" },
{ F|O, "SmoothNormals" , opt_view_smooth_normals , 0. ,
"Smooth the normals?" },
{ F|O, "Stipple" , opt_view_use_stipple , 0. ,
"Stipple curves in 2D plots?" },
{ F|O, "Tangents" , opt_view_tangents , 0. ,
"Display size of tangent vectors (in pixels)" },
{ F|O, "TargetError" , opt_view_target_error , 0.01 ,
"Target representation error for adaptive views" },
{ F|O, "TensorType" , opt_view_tensor_type , 1. ,
"Tensor Visualization Type" },
{ F, "TimeStep" , opt_view_timestep , 0. ,
"Current time step displayed" },
{ F, "Time" , opt_view_time , -1. ,
"Current time displayed (if positive, sets the time step corresponding "
"the given time value)" }, { F, "TransformXX" , opt_view_transform00 , 1. ,
"Element (1,1) of the 3x3 coordinate transformation matrix" },
{ F, "TransformXY" , opt_view_transform01 , 0. ,
"Element (1,2) of the 3x3 coordinate transformation matrix" },
{ F, "TransformXZ" , opt_view_transform02 , 0. ,
"Element (1,3) of the 3x3 coordinate transformation matrix" },
{ F, "TransformYX" , opt_view_transform10 , 0. ,
"Element (2,1) of the 3x3 coordinate transformation matrix" },
{ F, "TransformYY" , opt_view_transform11 , 1. ,
"Element (2,2) of the 3x3 coordinate transformation matrix" },
{ F, "TransformYZ" , opt_view_transform12 , 0. ,
"Element (2,3) of the 3x3 coordinate transformation matrix" },
{ F, "TransformZX" , opt_view_transform20 , 0. ,
"Element (3,1) of the 3x3 coordinate transformation matrix" },
{ F, "TransformZY" , opt_view_transform21 , 0. ,
"Element (3,2) of the 3x3 coordinate transformation matrix" },
{ F, "TransformZZ" , opt_view_transform22 , 1. ,
"Element (3,3) of the 3x3 coordinate transformation matrix" },
{ F, "Type" , opt_view_type , 1 ,
"Type of plot (1=3D, 2=2D space, 3=2D time, 4=2D)" },
{ F|O, "UseGeneralizedRaise" , opt_view_use_gen_raise , 0 ,
"Use generalized raise?" },
{ F|O, "VectorType" , opt_view_vector_type , 4 ,
"Vector display type (1=segment, 2=arrow, 3=pyramid, 4=3D arrow, "
"5=displacement, 6=comet)" },
{ F, "Visible" , opt_view_visible , 1. ,
"Is the view visible?" },
{ F|O, "Width" , opt_view_size0 , 300. ,
"Width (in pixels) of the scale or 2D plot" },
{ 0, 0 , 0 , 0. , 0 }
} ;
StringXNumber PrintOptions_Number[] = {
{ F|O, "Parameter" , opt_print_parameter , 0. ,
"Current value of the print parameter" },
{ F|O, "ParameterFirst" , opt_print_parameter_first , -1. ,
"First value of print parameter in loop" },
{ F|O, "ParameterLast" , opt_print_parameter_last , 1. ,
"Last value of print parameter in loop" },
{ F|O, "ParameterSteps" , opt_print_parameter_steps , 10. ,
"Number of steps in loop over print parameter" },
{ F|O, "Background" , opt_print_background , 0. ,
"Print background (gradient and image)?" },
{ F|O, "CompositeWindows" , opt_print_composite_windows , 0. ,
"Composite all window tiles in the same output image (for bitmap output only)" },
{ F|O, "PgfTwoDim" , opt_print_pgf_two_dim , 1. ,
"Output PGF format for two dimensions. Mostly irrelevant if `PgfExportAxis=0`. Default `1` (yes)." },
{ F|O, "PgfExportAxis" , opt_print_pgf_export_axis , 0. ,
"Include axis in export pgf code (not in the png). Default `0` (no)." },
{ F|O, "PgfHorizontalBar" , opt_print_pgf_horiz_bar , 0. ,
"Use a horizontal color bar in the pgf output. Default `0` (no)." },
{ F|O, "DeleteTemporaryFiles" , opt_print_delete_tmp_files , 1. ,
"Delete temporary files used during printing" },
{ F|O, "EpsBestRoot" , opt_print_eps_best_root , 1. ,
"Try to minimize primitive splitting in BSP tree sorted PostScript/PDF output" },
{ F|O, "EpsCompress" , opt_print_eps_compress , 0. ,
"Compress PostScript/PDF output using zlib" },
{ F|O, "EpsLineWidthFactor" , opt_print_eps_line_width_factor , 1.0 ,
"Width factor for lines in PostScript/PDF output" }, { F|O, "EpsOcclusionCulling" , opt_print_eps_occlusion_culling , 1. ,
"Cull occluded primitives (to reduce PostScript/PDF file size)" },
{ F|O, "EpsPointSizeFactor" , opt_print_eps_point_size_factor , 1.0 ,
"Size factor for points in PostScript/PDF output" },
{ F|O, "EpsPS3Shading" , opt_print_eps_ps3shading , 0. ,
"Enable PostScript Level 3 shading" },
{ F|O, "EpsQuality" , opt_print_eps_quality , 1. ,
"PostScript/PDF quality (0=bitmap, 1=vector (simple sort), 2=vector "
"(accurate sort), 3=vector (unsorted)" },
{ F|O, "Format" , opt_print_file_format , FORMAT_AUTO ,
"File format (10=automatic)" },
{ F|O, "GeoLabels" , opt_print_geo_labels , 1. ,
"Save labels in unrolled Gmsh geometries" },
{ F|O, "GeoOnlyPhysicals" , opt_print_geo_only_physicals , 0. ,
"Only save entities that belong to physical groups" },
{ F|O, "GifDither" , opt_print_gif_dither , 0. ,
"Apply dithering to GIF output" },
{ F|O, "GifInterlace" , opt_print_gif_interlace , 0. ,
"Interlace GIF output" },
{ F|O, "GifSort" , opt_print_gif_sort , 1. ,
"Sort the colormap in GIF output" },
{ F|O, "GifTransparent" , opt_print_gif_transparent , 0. ,
"Output transparent GIF image" },
{ F|O, "Height" , opt_print_height , -1. ,
"Height of printed image; use (possibly scaled) current height if < 0" },
{ F|O, "JpegQuality" , opt_print_jpeg_quality , 100. ,
"JPEG quality (between 1 and 100)" },
{ F|O, "JpegSmoothing" , opt_print_jpeg_smoothing , 0. ,
"JPEG smoothing (between 0 and 100)" },
{ F|O, "PostElementary" , opt_print_pos_elementary , 1. ,
"Save elementary region tags in mesh statistics exported as "
"post-processing views" },
{ F|O, "PostElement" , opt_print_pos_element , 0. ,
"Save element numbers in mesh statistics exported as post-processing views" },
{ F|O, "PostGamma" , opt_print_pos_gamma , 0. ,
"Save Gamma quality measure in mesh statistics exported as "
"post-processing views" },
{ F|O, "PostEta" , opt_print_pos_eta , 0. ,
"Save Eta quality measure in mesh statistics exported as "
"post-processing views" },
{ F|O, "PostRho" , opt_print_pos_rho , 0. ,
"Save Rho quality measure in mesh statistics exported as "
"post-processing views" },
{ F|O, "PostDisto" , opt_print_pos_disto , 0. ,
"Save Disto quality measure in mesh statistics exported as "
"post-processing views" },
{ F|O, "TexAsEquation" , opt_print_tex_as_equation , 0. ,
"Print all TeX strings as equations" },
{ F|O, "Text" , opt_print_text , 1. ,
"Print text strings?" },
{ F|O, "Width" , opt_print_width , -1. ,
"Width of printed image; use (possibly scaled) current width if < 0)" },
{ 0, 0 , 0 , 0. }
} ;
// COLORS
// CONTRARY TO THE PRECEDING OPTIONS, THE ORDERING OF COLOR OPTIONS MATTERS !
// Solid Works (light blue to light gray): 94,198,255 -> 232,232,232
// Catia (dark grey-blue to light gray-blue): 63,62,119 -> 181,182,202
StringXColor GeneralOptions_Color[] = {
{ F|O, "Background" , opt_general_color_background ,
{0, 0, 0, 255}, {255, 255, 255, 255}, {255, 255, 255, 255},
"Background color" },
{ F|O, "BackgroundGradient" , opt_general_color_background_gradient ,
{0, 0, 128, 255}, {208, 215, 255, 255}, {125, 125, 125, 255},
"Background gradient color" },
{ F|O, "Foreground" , opt_general_color_foreground ,
{170, 170, 170, 255}, {85, 85, 85, 255}, {128, 128, 128, 255},
"Foreground color" },
{ F|O, "Text" , opt_general_color_text ,
{255, 255, 255, 255}, {0, 0, 0, 255}, {0, 0, 0, 255},
"Text color" },
{ F|O, "Axes" , opt_general_color_axes ,
{255, 255, 255, 255}, {0, 0, 0, 255}, {0, 0, 0, 255},
"Axes color" },
{ F|O, "SmallAxes" , opt_general_color_small_axes ,
{255, 255, 255, 255}, {0, 0, 0, 255}, {0, 0, 0, 255},
"Small axes color" },
{ F|O, "AmbientLight" , opt_general_color_ambient_light,
{25, 25, 25, 255}, {25, 25, 25, 255}, {25, 25, 25, 255},
"Ambient light color" },
{ F|O, "DiffuseLight" , opt_general_color_diffuse_light,
{255, 255, 255, 255}, {255, 255, 255, 255}, {255, 255, 255, 255},
"Diffuse light color" },
{ F|O, "SpecularLight" , opt_general_color_specular_light,
{255, 255, 255, 255}, {255, 255, 255, 255}, {255, 255, 255, 255},
"Specular light color" },
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
StringXColor GeometryOptions_Color[] = {
{ F|O, "Points" , opt_geometry_color_points ,
{178, 182, 129, 255}, {90, 90, 90, 255}, {0, 0, 0, 255},
"Normal geometry point color" },
{ F|O, "Lines" , opt_geometry_color_lines ,
{0, 0, 255, 255}, {0, 0, 255, 255}, {0, 0, 0, 255},
"Normal geometry curve color" },
{ F|O, "Surfaces" , opt_geometry_color_surfaces ,
{128, 128, 128, 255}, {128, 128, 128, 255}, {0, 0, 0, 255},
"Normal geometry surface color" },
{ F|O, "Volumes" , opt_geometry_color_volumes ,
{255, 255, 0, 255}, {255, 255, 0, 255}, {0, 0, 0, 255},
"Normal geometry volume color" },
{ F|O, "Selection" , opt_geometry_color_selection ,
{255, 0, 0, 255}, {255, 0, 0, 255}, {255, 0, 0, 255},
"Selected geometry color" },
{ F|O, "HighlightZero" , opt_geometry_color_highlight0 ,
{255, 0, 0, 255}, {255, 0, 0, 255}, {255, 0, 0, 255},
"Highlight 0 color" },
{ F|O, "HighlightOne" , opt_geometry_color_highlight1 ,
{255, 150, 0, 255}, {255, 150, 0, 255}, {255, 150, 0, 255},
"Highlight 1 color" },
{ F|O, "HighlightTwo" , opt_geometry_color_highlight2 ,
{255, 255, 0, 255}, {255, 255, 0, 255}, {255, 255, 0, 255},
"Highlight 2 color" },
{ F|O, "Tangents" , opt_geometry_color_tangents ,
{255, 255, 0, 255}, {255, 255, 0, 255}, {0, 0, 0, 255},
"Tangent geometry vectors color" },
{ F|O, "Normals" , opt_geometry_color_normals ,
{255, 0, 0, 255}, {255, 0, 0, 255}, {0, 0, 0, 255},
"Normal geometry vectors color" },
{ F|O, "Projection" , opt_geometry_color_projection ,
{0, 255, 0, 255}, {0, 255, 0, 255}, {0, 0, 0, 255},
"Projection surface color" },
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
#define COLW {210, 210, 210, 255}
#define COLT {160, 150, 255, 255}#define COLQ {130, 120, 225, 255}
#define COLP {232, 210, 23, 255}
#define COLY {217, 113, 38, 255}
#define COL0 {255, 120, 0, 255}
#define COL2 {255, 160, 0, 255}
#define COL4 {255, 200, 0, 255}
#define COL6 {255, 240, 0, 255}
#define COL8 {228, 255, 0, 255}
#define COL10 {188, 255, 0, 255}
#define COL12 {148, 255, 0, 255}
#define COL14 {108, 255, 0, 255}
#define COL16 {68, 255, 0, 255}
#define COL18 {0, 255, 52, 255}
#define COL1 {0, 255, 132, 255}
#define COL3 {0, 255, 192, 255}
#define COL5 {0, 216, 255, 255}
#define COL7 {0, 176, 255, 255}
#define COL9 {0, 116, 255, 255}
#define COL11 {0, 76, 255, 255}
#define COL13 {24, 0, 255, 255}
#define COL15 {84, 0, 255, 255}
#define COL17 {104, 0, 255, 255}
#define COL19 {184, 0, 255, 255}
StringXColor MeshOptions_Color[] = {
{ F|O, "Points" , opt_mesh_color_points ,
{0, 0, 255, 255}, {0, 0, 255, 255}, {0, 0, 0, 255},
"Mesh node color" },
{ F|O, "PointsSup" , opt_mesh_color_points_sup ,
{255, 0, 255, 255}, {255, 0, 255, 255}, {0, 0, 0, 255},
"Second order mesh node color" },
{ F|O, "Lines" , opt_mesh_color_lines ,
{0, 0, 0, 255}, {0, 0, 0, 255}, {0, 0, 0, 255},
"Mesh line color" },
{ F|O, "Triangles" , opt_mesh_color_triangles ,
COLT, COLT, COLW,
"Mesh triangle color (if Mesh.ColorCarousel=0)" },
{ F|O, "Quadrangles" , opt_mesh_color_quadrangles ,
COLQ, COLQ, COLW,
"Mesh quadrangle color (if Mesh.ColorCarousel=0)" },
{ F|O, "Tetrahedra" , opt_mesh_color_tetrahedra ,
COLT, COLT, COLW,
"Mesh tetrahedron color (if Mesh.ColorCarousel=0)" },
{ F|O, "Hexahedra" , opt_mesh_color_hexahedra ,
COLQ, COLQ, COLW,
"Mesh hexahedron color (if Mesh.ColorCarousel=0)" },
{ F|O, "Prisms" , opt_mesh_color_prisms ,
COLP, COLP, COLW,
"Mesh prism color (if Mesh.ColorCarousel=0)" },
{ F|O, "Pyramids" , opt_mesh_color_pyramid ,
COLY, COLY, COLW,
"Mesh pyramid color (if Mesh.ColorCarousel=0)" },
{ F|O, "Tangents" , opt_mesh_color_tangents ,
{255, 255, 0, 255}, {255, 255, 0, 255}, {0, 0, 0, 255},
"Tangent mesh vector color" },
{ F|O, "Normals" , opt_mesh_color_normals ,
{255, 0, 0, 255}, {255, 0, 0, 255}, {0, 0, 0, 255},
"Normal mesh vector color" },
{ F|O, "Zero" , opt_mesh_color_0 , COL0, COL0, COLW,
"Color 0 in color carousel" },
{ F|O, "One" , opt_mesh_color_1 , COL1, COL1, COLW,
"Color 1 in color carousel" },
{ F|O, "Two" , opt_mesh_color_2 , COL2, COL2, COLW,
"Color 2 in color carousel" },
{ F|O, "Three" , opt_mesh_color_3 , COL3, COL3, COLW,
"Color 3 in color carousel" },
{ F|O, "Four" , opt_mesh_color_4 , COL4, COL4, COLW,
"Color 4 in color carousel" },
{ F|O, "Five" , opt_mesh_color_5 , COL5, COL5, COLW, "Color 5 in color carousel" },
{ F|O, "Six" , opt_mesh_color_6 , COL6, COL6, COLW,
"Color 6 in color carousel" },
{ F|O, "Seven" , opt_mesh_color_7 , COL7, COL7, COLW,
"Color 7 in color carousel" },
{ F|O, "Eight" , opt_mesh_color_8 , COL8, COL8, COLW,
"Color 8 in color carousel" },
{ F|O, "Nine" , opt_mesh_color_9 , COL9, COL9, COLW,
"Color 9 in color carousel" },
{ F|O, "Ten" , opt_mesh_color_10, COL10, COL10, COLW,
"Color 10 in color carousel" },
{ F|O, "Eleven" , opt_mesh_color_11, COL11, COL11, COLW,
"Color 11 in color carousel" },
{ F|O, "Twelve" , opt_mesh_color_12, COL12, COL12, COLW,
"Color 12 in color carousel" },
{ F|O, "Thirteen" , opt_mesh_color_13, COL13, COL13, COLW,
"Color 13 in color carousel" },
{ F|O, "Fourteen" , opt_mesh_color_14, COL14, COL14, COLW,
"Color 14 in color carousel" },
{ F|O, "Fifteen" , opt_mesh_color_15, COL15, COL15, COLW,
"Color 15 in color carousel" },
{ F|O, "Sixteen" , opt_mesh_color_16, COL16, COL16, COLW,
"Color 16 in color carousel" },
{ F|O, "Seventeen", opt_mesh_color_17, COL17, COL17, COLW,
"Color 17 in color carousel" },
{ F|O, "Eighteen" , opt_mesh_color_18, COL18, COL18, COLW,
"Color 18 in color carousel" },
{ F|O, "Nineteen" , opt_mesh_color_19, COL19, COL19, COLW,
"Color 19 in color carousel" },
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
StringXColor SolverOptions_Color[] = {
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
StringXColor PostProcessingOptions_Color[] = {
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
#define ELECOL {255, 255, 255, 255}, {0, 0, 0, 255}, {0, 0, 0, 255}
StringXColor ViewOptions_Color[] = {
{ F|O, "Points" , opt_view_color_points , ELECOL, "Point color" },
{ F|O, "Lines" , opt_view_color_lines , ELECOL, "Line color" },
{ F|O, "Triangles" , opt_view_color_triangles , ELECOL, "Triangle color" },
{ F|O, "Quadrangles" , opt_view_color_quadrangles , ELECOL, "Quadrangle color" },
{ F|O, "Tetrahedra" , opt_view_color_tetrahedra , ELECOL, "Tetrahedron color" },
{ F|O, "Hexahedra" , opt_view_color_hexahedra , ELECOL, "Hexahedron color" },
{ F|O, "Prisms" , opt_view_color_prisms , ELECOL, "Prism color" },
{ F|O, "Pyramids" , opt_view_color_pyramids , ELECOL, "Pyramid color" },
{ F|O, "Tangents" , opt_view_color_tangents ,
{255, 255, 0, 255}, {255, 255, 0, 255}, {0, 0, 0, 255},
"Tangent vector color" },
{ F|O, "Normals" , opt_view_color_normals ,
{255, 0, 0, 255}, {255, 0, 0, 255}, {0, 0, 0, 255},
"Normal vector color" },
{ F|O, "Text2D" , opt_view_color_text2d , ELECOL, "2D text color" },
{ F|O, "Text3D" , opt_view_color_text3d , ELECOL, "3D text color" },
{ F|O, "Axes" , opt_view_color_axes , ELECOL, "Axes color" },
{ F|O, "Background2D" , opt_view_color_background2d ,
{255, 255, 255, 200}, {255, 255, 255, 200}, {255, 255, 255, 200},
"Bacground color for 2D plots" },
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
StringXColor PrintOptions_Color[] = {
{ 0, 0 , 0 , {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0} , 0 }
} ;
#undef S
#undef O
#undef F
#endif