Difference between revisions of "Reference:Potential Pattern"
Jholsenback (talk | contribs) m (changed tag) |
Jholsenback (talk | contribs) m (added link) |
||
| Line 14: | Line 14: | ||
<p>The <em>isosurface's</em> container has no effect on the <code>potential</code> pattern.</p> | <p>The <em>isosurface's</em> container has no effect on the <code>potential</code> pattern.</p> | ||
| − | <p>The pattern value is <em>not</em> bound to the [0..1] range, unless you explicitly specify a <em> | + | <p>The pattern value is <em>not</em> bound to the [0..1] range, unless you explicitly specify a <em>wave type</em>. See also: [[Reference:Waves Pattern|Waves Pattern]].</p> |
<p>Applying the <code>inverse</code> keyword to the object will cause the pattern to be reversed as well; so, when using <code>threshold on</code> for blobs, positive pattern values always indicate inside, while negative values indicate outside.</p> | <p>Applying the <code>inverse</code> keyword to the object will cause the pattern to be reversed as well; so, when using <code>threshold on</code> for blobs, positive pattern values always indicate inside, while negative values indicate outside.</p> | ||
Revision as of 11:42, 20 December 2016
New in version 3.7.1 a potential pattern has been added to define a pattern based on the potential field of a blob or isosurface object.
Using pigment in the following example, the syntax for the new pattern is as follows:
pigment {
potential { BLOB | ISOSURFACE }
[threshold BOOL]
[PIGMENT_MODIFIERS...]
}
With threshold on the pattern will take the blob or isosurface object's potential minus the threshold; otherwise it will take the raw potential which is the default behavior.
The isosurface's container has no effect on the potential pattern.
The pattern value is not bound to the [0..1] range, unless you explicitly specify a wave type. See also: Waves Pattern.
Applying the inverse keyword to the object will cause the pattern to be reversed as well; so, when using threshold on for blobs, positive pattern values always indicate inside, while negative values indicate outside.
Note: By default this is the opposite for isosurfaces, so for easier use, the new pattern is therefore accompanied by an extension to the isosurface syntax as shown below:
isosurface {
...
polarity FLOAT
...
}
Setting polarity to a positive value causes above-threshold values to be interpreted as inside, and below-threshold values as outside, rather than the other way round
See also: Blob and Isosurface