klein man page on DragonFly
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klein(6) XScreenSaver manual klein(6)
NAME
klein - Draws a 4d Klein bottle.
SYNOPSIS
klein [-display host:display.screen] [-install] [-visual visual] [-win‐
dow] [-root] [-delay usecs] [-fps] [-klein-bottle bottle-name] [-fig‐
ure-8] [-squeezed-torus] [-lawson] [-mode display-mode] [-wireframe]
[-surface] [-transparent] [-appearance appearance] [-solid] [-bands]
[-colors color-scheme] [-twosided] [-rainbow] [-depth] [-view-mode
view-mode] [-walk] [-turn] [-walk-turn] [-orientation-marks] [-projec‐
tion-3d mode] [-perspective-3d] [-orthographic-3d] [-projection-4d
mode] [-perspective-4d] [-orthographic-4d] [-speed-wx float] [-speed-wy
float] [-speed-wz float] [-speed-xy float] [-speed-xz float] [-speed-yz
float] [-walk-direction float] [-walk-speed float]
DESCRIPTION
The klein program shows three different Klein bottles in 4d: the fig‐
ure-8 Klein bottle, the squeezed torus Klein bottle, or the Lawson
Klein bottle. You can walk on the Klein bottle, see it turn in 4d, or
walk on it while it turns in 4d. The figure-8 Klein bottle is well
known in its 3d form. The 4d form used in this program is an extension
of the 3d form to 4d that does not intersect itself in 4d (which can be
seen in the depth colors mode). The squeezed torus Klein bottle also
does not intersect itself in 4d (which can be seen in the depth colors
mode). The Lawson Klein bottle, on the other hand, does intersect
itself in 4d. Its primary use is that it has a nice appearance for
walking and for turning in 3d. The Klein bottle is a non-orientable
surface. To make this apparent, the two-sided color mode can be used.
Alternatively, orientation markers (curling arrows) can be drawn as a
texture map on the surface of the Klein bottle. While walking on the
Klein bottle, you will notice that the orientation of the curling
arrows changes (which it must because the Klein bottle is non-ori‐
entable). The program projects the 4d Klein bottle to 3d using either
a perspective or an orthographic projection. Which of the two alterna‐
tives looks more appealing depends on the viewing mode and the Klein
bottle. For example, the Lawson Klein bottle looks nicest when pro‐
jected perspectively. The figure-8 Klein bottle, on the other hand,
looks nicer while walking when projected orthographically from 4d. For
the squeezed torus Klein bottle, both projection modes give equally
acceptable projections. The projected Klein bottle can then be pro‐
jected to the screen either perspectively or orthographically. When
using the walking modes, perspective projection to the screen should be
used. There are three display modes for the Klein bottle: mesh (wire‐
frame), solid, or transparent. Furthermore, the appearance of the
Klein bottle can be as a solid object or as a set of see-through bands.
Finally, the colors with with the Klein bottle is drawn can be set to
two-sided, rainbow, or depth. In the first case, the Klein bottle is
drawn with red on one "side" and green on the "other side". Of course,
the Klein bottle only has one side, so the color jumps from red to
green along a curve on the surface of the Klein bottle. This mode
enables you to see that the Klein bottle is non-orientable. The second
mode draws the Klein bottle with fully saturated rainbow colors. This
gives a very nice effect when combined with the see-through bands mode
or with the orientation markers drawn. The third mode draws the Klein
bottle with colors that are chosen according to the 4d "depth" of the
points. This mode enables you to see that the figure-8 and squeezed
torus Klein bottles do not intersect themselves in 4d, while the Lawson
Klein bottle does intersect itself. The rotation speed for each of the
six planes around which the Klein bottle rotates can be chosen. For
the walk-and-turn mode, only the rotation speeds around the true 4d
planes are used (the xy, xz, and yz planes). Furthermore, in the walk‐
ing modes the walking direction in the 2d base square of the Klein bot‐
tle and the walking speed can be chosen. This program is somewhat
inspired by Thomas Banchoff's book "Beyond the Third Dimension: Geome‐
try, Computer Graphics, and Higher Dimensions", Scientific American
Library, 1990.
OPTIONS
klein accepts the following options:
-window Draw on a newly-created window. This is the default.
-root Draw on the root window.
-install
Install a private colormap for the window.
-visual visual
Specify which visual to use. Legal values are the name of a
visual class, or the id number (decimal or hex) of a specific
visual.
-delay microseconds
How much of a delay should be introduced between steps of the
animation. Default 10000, or 1/100th second.
-fps Display the current frame rate, CPU load, and polygon count.
The following three options are mutually exclusive. They determine
which Klein bottle is displayed.
-klein-bottle random
Display a random Klein bottle (default).
-klein-bottle figure-8 (Shortcut: -figure-8)
Display the figure-8 Klein bottle.
-klein-bottle squeezed-torus (Shortcut: -squeezed-torus)
Display the squeezed torus Klein bottle.
-klein-bottle lawson (Shortcut: -lawson)
Display the Lawson Klein bottle.
The following four options are mutually exclusive. They determine how
the Klein bottle is displayed.
-mode random
Display the Klein bottle in a random display mode (default).
-mode wireframe (Shortcut: -wireframe)
Display the Klein bottle as a wireframe mesh.
-mode surface (Shortcut: -surface)
Display the Klein bottle as a solid surface.
-mode transparent (Shortcut: -transparent)
Display the Klein bottle as a transparent surface.
The following three options are mutually exclusive. They determine the
appearance of the Klein bottle.
-appearance random
Display the Klein bottle with a random appearance (default).
-appearance solid (Shortcut: -solid)
Display the Klein bottle as a solid object.
-appearance bands (Shortcut: -bands)
Display the Klein bottle as see-through bands.
The following four options are mutually exclusive. They determine how
to color the Klein bottle.
-colors random
Display the Klein bottle with a random color scheme (default).
-colors twosided (Shortcut: -twosided)
Display the Klein bottle with two colors: red on one "side" and
green on the "other side".
-colors rainbow (Shortcut: -rainbow)
Display the Klein bottle with fully saturated rainbow colors.
If the Klein bottle is displayed as see-through bands, each
band will be displayed with a different color.
-colors depth (Shortcut: -depth)
Display the Klein bottle with colors chosen depending on the 4d
"depth" of the points.
The following four options are mutually exclusive. They determine how
to view the Klein bottle.
-view-mode random
View the Klein bottle in a random view mode (default).
-view-mode walk (Shortcut: -walk)
View the Klein bottle as if walking on its surface.
-view-mode turn (Shortcut: -turn)
View the Klein bottle while it turns in 4d.
-view-mode walk-turn (Shortcut: -walk-turn)
View the Klein bottle as if walking on its surface. Addition‐
ally, the Klein bottle turns around the true 4d planes (the xy,
xz, and yz planes).
The following options determine whether orientation marks are shown on
the Klein bottle.
-orientation-marks
Display orientation marks on the Klein bottle.
-no-orientation-marks
Don't display orientation marks on the Klein bottle (default).
The following three options are mutually exclusive. They determine how
the Klein bottle is projected from 3d to 2d (i.e., to the screen).
-projection-3d random
Project the Klein bottle from 3d to 2d using a random projec‐
tion mode (default).
-projection-3d perspective (Shortcut: -perspective-3d)
Project the Klein bottle from 3d to 2d using a perspective pro‐
jection.
-projection-3d orthographic (Shortcut: -orthographic-3d)
Project the Klein bottle from 3d to 2d using an orthographic
projection.
The following three options are mutually exclusive. They determine how
the Klein bottle is projected from 4d to 3d.
-projection-4d random
Project the Klein bottle from 4d to 3d using a random projec‐
tion mode (default).
-projection-4d perspective (Shortcut: -perspective-4d)
Project the Klein bottle from 4d to 3d using a perspective pro‐
jection.
-projection-4d orthographic (Shortcut: -orthographic-4d)
Project the Klein bottle from 4d to 3d using an orthographic
projection.
The following six options determine the rotation speed of the Klein
bottle around the six possible hyperplanes. The rotation speed is mea‐
sured in degrees per frame. The speeds should be set to relatively
small values, e.g., less than 4 in magnitude. In walk mode, all speeds
are ignored. In walk-and-turn mode, the 3d rotation speeds are ignored
(i.e., the wx, wy, and wz speeds). In walk-and-turn mode, smaller
speeds must be used than in the turn mode to achieve a nice visualiza‐
tion. Therefore, in walk-and-turn mode the speeds you have selected
are divided by 5 internally.
-speed-wx float
Rotation speed around the wx plane (default: 1.1).
-speed-wy float
Rotation speed around the wy plane (default: 1.3).
-speed-wz float
Rotation speed around the wz plane (default: 1.5).
-speed-xy float
Rotation speed around the xy plane (default: 1.7).
-speed-xz float
Rotation speed around the xz plane (default: 1.9).
-speed-yz float
Rotation speed around the yz plane (default: 2.1).
The following two options determine the walking speed and direction.
-walk-direction float
The walking direction is measured as an angle in degrees in the
2d square that forms the coordinate system of the surface of
the Klein bottle (default: 7.0).
-walk-speed float
The walking speed is measured in percent of some sensible maxi‐
mum speed (default: 20.0).
INTERACTION
If you run this program in standalone mode in its turn mode, you can
rotate the Klein bottle by dragging the mouse while pressing the left
mouse button. This rotates the Klein bottle in 3D, i.e., around the
wx, wy, and wz planes. If you press the shift key while dragging the
mouse with the left button pressed the Klein bottle is rotated in 4D,
i.e., around the xy, xz, and yz planes. To examine the Klein bottle at
your leisure, it is best to set all speeds to 0. Otherwise, the Klein
bottle will rotate while the left mouse button is not pressed. This
kind of interaction is not available in the two walk modes.
ENVIRONMENT
DISPLAY to get the default host and display number.
XENVIRONMENT
to get the name of a resource file that overrides the global
resources stored in the RESOURCE_MANAGER property.
SEE ALSO
X(1), xscreensaver(1)
COPYRIGHT
Copyright © 2005-2014 by Carsten Steger. Permission to use, copy, mod‐
ify, distribute, and sell this software and its documentation for any
purpose is hereby granted without fee, provided that the above copy‐
right notice appear in all copies and that both that copyright notice
and this permission notice appear in supporting documentation. No rep‐
resentations are made about the suitability of this software for any
purpose. It is provided "as is" without express or implied warranty.
AUTHOR
Carsten Steger <carsten@mirsanmir.org>, 03-oct-2014.
X Version 11 5.34 (24-Oct-2015) klein(6)
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