java.lang.Object
org.pqt.autorib.rib.RIBRequest
org.pqt.autorib.rib.RIBShader
org.pqt.autorib.rib.RIBLight
- All Implemented Interfaces:
- java.lang.Cloneable
- public class RIBLight
- extends RIBShader
Class for storing RIB lightsource calls
- Version:
- $Header: /home/CVSRepository/autoribnew/org/pqt/autorib/rib/RIBLight.java,v 1.6 2003/11/17 00:10:26 remote Exp $
lightHandle
public int lightHandle
PRINTTRANSFORMS
public static final boolean PRINTTRANSFORMS
- See Also:
- Constant Field Values
attributes
public RIBAttributeRec attributes
transform
public org.pqt.autorib.util.Matrix transform
RIBLight
public RIBLight()
RIBLight
public RIBLight(org.pqt.autorib.tokenizer.Tokenizer in)
throws org.pqt.autorib.tokenizer.FormatException,
java.io.IOException
RIBLight
public RIBLight(RIBLight l)
RIBLight
public RIBLight(int handle,
java.lang.String shader,
org.pqt.autorib.util.Point from,
org.pqt.autorib.util.Point to)
- Construct a directional light
RIBLight
public RIBLight(int handle,
java.lang.String shader,
org.pqt.autorib.util.Point from,
org.pqt.autorib.util.Point to,
float coneAngle)
- Construct a directional light
read
public void read(org.pqt.autorib.tokenizer.Tokenizer in)
throws java.io.IOException,
org.pqt.autorib.tokenizer.FormatException
- Description copied from class:
RIBShader
- Read in a complete shader RIB call. This call assumes that the present
token (in.token) contains the shader type (Surface, Displacement etc) in
WorldVal field.
- Overrides:
read in class RIBShader
write
public void write(java.io.Writer out)
throws java.io.IOException
- Description copied from class:
RIBRequest
- write out this RIBRequest, together with any
other requests that have been added to it
- Overrides:
write in class RIBRequest
getConeAngle
public double getConeAngle()
throws org.pqt.autorib.tokenizer.FormatException
getPoint
public org.pqt.autorib.util.Point getPoint(java.lang.String s)
- Try to locate a light's from or to parameter
clone
public java.lang.Object clone()
- Description copied from class:
java.lang.Object
- This method may be called to create a new copy of the
Object. The typical behavior is as follows:
o == o.clone() is falseo.getClass() == o.clone().getClass()
is trueo.equals(o) is true
However, these are not strict requirements, and may
be violated if necessary. Of the three requirements, the
last is the most commonly violated, particularly if the
subclass does not override Object.equals(Object)>Object.equals(Object) 55 .
If the Object you call clone() on does not implement
java.lang.Cloneable (which is a placeholder interface), then
a CloneNotSupportedException is thrown. Notice that
Object does not implement Cloneable; this method exists
as a convenience for subclasses that do.
Object's implementation of clone allocates space for the
new Object using the correct class, without calling any
constructors, and then fills in all of the new field values
with the old field values. Thus, it is a shallow copy.
However, subclasses are permitted to make a deep copy.
All array types implement Cloneable, and override
this method as follows (it should never fail):
public Object clone()
{
try
{
super.clone();
}
catch (CloneNotSupportedException e)
{
throw new InternalError(e.getMessage());
}
}
- Overrides:
clone in class RIBShader
setAttrs
public void setAttrs(RIBAttributeRec attrs)
setTransform
public void setTransform(org.pqt.autorib.util.Matrix transform)
JAVADOC | 
SOURCE | 
DOWNLOAD | NESTED | FIELD | CONSTR | METHOD