This is the command r3d_objects that can be run in the OnWorks free hosting provider using one of our multiple free online workstations such as Ubuntu Online, Fedora Online, Windows online emulator or MAC OS online emulator
PROGRAM:
NAME
rd3_objects - object types used by the Raster3D package
DESCRIPTION
These are the object descriptor types, and the required parameters, recognized by the
render program and other components of the Raster3D package.
Object type 1 - triangle
x1, y1, z1, x2, y2, z2, x3, y3, z3, red, green, blue;
Object type 2 - sphere
x, y, z, radius, red, green, blue;
Object type 3 - cylinder with round ends
x1, y1, z1, R1, x2, y2, z2, R2, red, green, blue.
(R1 is the cylinder radius, R2 is currently ignored).
Object type 4 - not used
Object type 5 - cylinder with flat ends
x1, y1, z1, R1, x2, y2, z2, R2, red, green, blue.
(R1 is the cylinder radius, R2 is currently ignored).
Object type 6 - plane
x1, y1, z1, x2, y2, z2, x3, y3, z3, red, green, blue;
The plane is defined by any three points. It's color fades from full intensity in the
foreground to half-intensity at the back.
Object type 7 - Vertex normals
Explicit vertex normals for preceding triangle object. This object must directly follow
the triangle object, and uses the same format.
Object type 8 - Material properties.
These values override the specification of lighting and specular highlighting in the
header records, allowing some objects to have different surface properties from the rest.
The specified values will apply to all subsequent objects until an object of type 9 is
encountered. The parameters are read as free format floating point numbers from the next
line of the input stream:
8
MPHONG MSPEC SR SG SB CLRITY OPT1 OPT2 OPT3 OPT4
MPHONG
value >=0 overrides the global Phong power for specular highlighting
MSPEC
value >=0 overrides the global specular scattering contribution
SR,SG,SB
RGB triple specifying color of reflected light (by default all specular highlights
are white) A negative value for any component will default to the base colour
component of the object being rendered.
CLRITY
The degree of transparency for this material, with 0.0 indicating an opaque surface
and 1.0 a purely transparent one.
OPT1 Affects processing of transparent objects which belong to the same material, but
occlude each other (for instance the front and back surfaces of a transparent
molecular surface).
OPT1 = 0 will render all outward-facing transparent surfaces
OPT1 = 1 will render only the topmost outward-facing surface
OPT1 = 2 will render both the outward- and inward- facing surfaces of transparent
spheres and cylinders
OPT2 Selects from several variant treatments of transparency as a function of alpha and
the Z component ZN of the surface normal.
OPT2 = 0 T(ZN) = 0.25(1+cos(pi*alpha*ZN)^2
OPT2 = 1 T(ZN) = (1-abs(alpha*ZN))^2
OPT2 = 2 T(ZN) = 1 - alpha ^ (cos(pi/4) / abs(ZN))
OPT2 = 3 T(ZN) = 1 - alpha Option 0 is an empirical function that I think looks
good.
OPT3 Not used
OPT4 Non-zero to indicate that additional modifier records follow immediately. Each
modifier must constitute a single line, and OPT4 tells how many of these lines there
will be. Here is a complete list of modifiers currently available, and their
parameters
SOLID RED GREEN BLUE
BACKFACE RED GREEN BLUE MPHONG MSPEC
FRONTCLIP ZFRONT
BACKCLIP ZBACK
BOUNDING_COLOR RED GREEN BLUE
BOUNDING_PLANE BPTYPE X Y Z Xnorm Ynorm Znorm
ORTEP_LIKE used to create fancy ellipsoids (see rastep documentation)
Object type 9 - End_material
Terminates application of all previously defined special material properties (object type
8) or isolation from TMAT transformation (object type 15).
Object types 10,11,12 - Label descriptors
These object types are used as label descriptors. The current version of render ignores
them unless the -labels option is selected on the command line.
Object type 10 - font_name size alignment
Legal values subject to details of font processing implementation.
font_name is any font name recognized by libgd
size is the font size in points, but is modified by render's -fontscale option
alignment is "Left", "Right", "Center", or "Offset".
Object type 11 - Label text
X Y Z R G B (On one line) label position and color
Label text (On 2nd line)
Object type 13 - Glow light source.
This is a colored, non-shadowing, light source with finite [x y z] coordinates and a
limited range of illumination. Control parameters are read in free format from a single
line of input following the line specifying the object type.
13
GLOWSRC(3) GLOWRAD GLOW GOPT GPHONG GLOWCOL(3)
GLOWSRC(3)
[x y z] coordinates of light source
GLOWRAD
limiting radius of light source (see GOPT)
GLOW fractional contribution (0.0 - 1.0) of glow light to total lighting model
GOPT (integer 0/1/2/3/...) - controls functional form in which limiting radius is applied
[under development]
GPHONG
Phong parameter controlling specular highlights from glow light
GLOWCOL(3)
RGB triple specifying color of glow light source
Object type 14 - Quadric surface
x, y, z, limiting_radius, red, green, blue, A, B, C, D, E, F, G, H, I, J
Quadric surfaces include spheres, cones, ellipsoids, paraboloids, and hyperboloids. The
motivation for this code was to allow rendering thermal ellipsoids for atoms, so the other
shapes have not been extensively tested. A quadric surface is described by 10 parameters
(A...J). Although these parameters are sufficient to describe a quadric surface located
anywhere, for efficiency during rendering it is also useful to know the center and a
bounding sphere. So by convention we require that (A...J) describe a surface centered at
the origin, and add additional parameters x, y, z to add a translation component.
Therefore a QUADRIC descriptor to render has the 17 parameters listed above.
The surface is the set of points for which Q(x,y,z) = 0 where
Q(x,y,z) = Ax2 + By2 + Cz2 + 2Dxy + 2Eyz + 2Fzx + 2Gx + 2Hy + 2Iz + J
Points further from the origin (prior to translation!) than the limiting radius are not
rendered.
Object type 15 - TMAT Isolation
Objects following this descriptor are interpreted as being in an absolute coordinate
system centered at the origin and having unit extent in X, Y, and Z. If the image is
rectangular, coordinates run from -0.5 to +0.5 along both X and Y. If the image is
rectangular, coordinates run from -0.5 to +0.5 along the shorter dimension. The rotation
and translation described by the TMAT matrix is not applied. This isolation from TMAT
applies to subsequent objects until an object of type 9 is encountered.
Object type 16 - Global property
Object type 16 is always followed by a single record that affects the rendering of the
entire scene. Currently the options are FOG, FRONTCLIP, and BACKCLIP. There are also
options ROTATION and TRANSLATION that affect only objects following their appearance in
the input stream.
Object type 17 - Vertex colours
Explicit vertex colours for preceding triangle or cylinder object.
R1 G1 B1 R2 G2 B2 R3 G3 B3
Object type 18 - Vertex transparency
Explicit transparency at vertices of preceding object. All three values are required,
though only the first two are used for cylinders, and only the first one for spheres.
Trans1 Trans2 Trans3
Object type 19 - TMAT Isolation
Similar to object type 15, except the the x and y scales are the same only in the case of
a square image. Both the x and y axes run from -0.5 to +0.5 regardless of the aspect
ratio of the rendered image.
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