Paintable Gabor Noise

Features ›› Nodes ›› Procedural Nodes ›› Noise & Fractal Nodes ›› Gabor ››
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Paintable Gabor Noise by Miguel A Santiago Jr. & Jens Kafitz









Paintable Gabor Noise is a procedural noise with the distinction that you can paint in the direction of noise features.


Samples



How can I paint direction ?


Gabor Noise is created by distributing round/oval cells in space. These cells can be oriented to have a direction.

By using Mari's Vector Tools these directions can be painted.


Step by Step:


1. Fill a new layer "MyPaint" with black or white and place it under the Paintable Gabor Noise

   This represents your starting point - a constant direction of either x=0 / y=0 / z=0 (black)

or x=1 / y=1 / z=1 (white).




Tip:


Use another fractal under the 'Paintable Gabor Noise' Layer for some interesting effects.



2. In Paintable Gabor Noise tick on 'Use Painted Flow' under the Direction Group



3. For more noticeable directionality switch 'Noise Type' to 'Anisotropic under the Modifiers Group



4. In the tools switch to the 'Vector Paint Brush'



5. Under 'Painting Mode' a variety of Vector related options are available. 'Paint Flow Vectors' is usually fine.



6. On Layer 'MyPaint' start painting. You will see the Gabor cells orienting themselves along the direction of your brush stroke





Tip: Using 'Custom Object Normal' Node as a starting point


Create a 'Custom Object Normal' Node under the Gabor Noise for a good starting point.

With the 'Gabor Noise' hidden turn on 'Vector Inspection Grid' to get a preview of your vector

direction then start painting. Switch on the 'Paintable Gabor Noise' to verify.





Node Overview


Due to the expensive nature of the node, the node has been marked in red




Node Properties


Color


The two colors that make up the final look of the procedural

Size


Size of fractal features on your model


A random start value for your fractal.

Changing the seed changes the overall look of your fractal while the general feature look stays the same, allowing for quick variation with a general look theme.


Clamps the noise calculation to a 0-1 range.

Color A/B are applied after the Clamping, so you can still set values above 1 if you choose to

however by clamping the Noise calculation the color mixing between the two colors works more

reliably. In general this should be left on.


Direction


With Use Painted Flow turned on, cell direction X,Y and Z is evaluated based on R,G and B Values from the combined result of all layers underneath the Paintable Gabor Noise Node.


Determines the direction of all Gabor cells in world space allowing you to give the Gabor Noise a directionality


Modifiers


Gabor Noise works by distributing cells over your model. The Noise Type describes what Algorithm is used to determine orientation of cells.


Cell Roration is determined based on directional settings from 'Direction' Group


Gabor with few impulses and 'Anisotropic' Setting


Cells have a random starting rotation. Interior feature orientation of each cell is determined based on directional settings from 'Direction' Group


Gabor with few impulses and 'Isotropic' Setting


Hybrid is a combination of Anisotropic and Isotropic.


Gabor with few impulses and 'Hybrid Setting



Impulses determines the number of Gabor Cells the fractal is made of


Gabor with low number impulses, medium number impulses and high number of impulses



Bandwidth is in many ways similar to frequency - it changes the scale of features.

But while frequency just scales the complete result of the fractal, bandwidth scales the signals that make up the fractal individually

giving different results.


Gabor with low , mid and high bandwith


Limits the signal used for placing each gabor cell. Lower values result in more spare less overlapping distribution,

higher values in denser, overlapping cells


Gabor with low , mid and high Truncate Settings


Gabor with low , mid and high Truncate Settings with an additional directional component.



Space


By default this procedural is generated in 3D World Space. This results in a seamless noise across UV seams.

By turning on UV Space the procedural is generated based on your UVs, resulting in seams between UV tiles/UDIM & shells.


Utilizing Transform Controls such as Scale (see below) you can apply a non-uniform transform to the procedural

to make use of specific UV layouts


Affects the transformation pivot for UV Transforms when in UV Space


With PerUDIMPivot on all transformation will be performed with a pivot at the centre of each UDIM.


With PerUDIMPivot off, transformations for all UDIMs share one common pivot at the base of UDIM 1001.

This will ensure seamless textures across UDIMs when your UV Shell is scaled up and covering multiple UDIMs.

without a cut inbetween.



UV Transformations applied to multiple UDIMs with perUDIM Pivot On (left) and off (right).

                                                       

Transform Scale


Will apply a scale along X,Y or Z to your noise. This is useful for creating patterns like woodgrain, drips etc.

When UV Space is turned on Scale Z is ignored.

Transform Rotate


Will apply a rotation in X,Y or Z to your noise. When UV Space is turned on Rotate X & Rotate Y are ignored

and rotation is done around the center of each UV Tile/UDIM using Rotate Z.

Transform Translate


Will apply an offset in X,Y or Z to your noise. When UV Space is turned on Translate Z is ignored.

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