pymel.core.effects.turbulence¶
- turbulence(*args, **kwargs)¶
A turbulence field causes irregularities (also called ‘noise’ or ‘jitter’) in the motion of affected objects. Use connectDynamic to cause the field to affect a dynamic object. If fields are created, this command returns the names of each of the fields. If a field was queried, the results of the query are returned. If a field was edited, the field name is returned. If object names are provided or the active selection list is non-empty, the command creates a field for every object in the list and calls addDynamic to add it to the object. If the list is empty, the command defaults to -pos 0 0 0. Setting the -pos flag with objects named on the command line is an error.
Flags:
Long Name / Short Name Argument Types Properties attenuation / att float Attentuation rate of field frequency / f float Frequency of turbulence field. This determines how often motion is disrupted. magnitude / m float Strength of field. As this increases, the affected objects will move faster. maxDistance / mxd float Maximum distance at which field is exerted. name / n unicode name of field noiseLevel / nsl int If the noiseLevel parameter is greater than zero, the field will do multiple lookups in the table. Each additional lookup is weighted using noiseRatio (which see). The noiseLevel is the number of additional lookups, so if noiseLevel is 0, there is just one lookup. A value of 0 (the default) corresponds to the way the field behaved prior to Maya 3.0. noiseRatio / nsr float If noiseLevel is greater than zero, then noiseRatio is the relative magnitude for each consecutive noise evaluation. These are cumulative: for example, if noiseRatio is 0.5, then the first evaluation is weighted 0.5, the second 0.25, and so on. Has no effect if noiseLevel is zero. perVertex / pv bool Per-vertex application. If this flag is set true, then each individual point (CV, particle, vertex,etc.) of the chosen object exerts an identical copy of the force field. If this flag is set to false, then the force is exerted only from the geometric center of the set of points. phase / p float Phase shift of turbulence field. This influences the direction of the disruption. This flag is obsolete and is retained only for backward compatibility. It is replaced by -phaseX, -phaseY, and -phaseZ. Setting -phase is identical to setting -phaseZ (the phase shift was always in the Z dimension). phaseX / px float X component of phase shift of turbulence field. This influences the direction of the disruption. phaseY / py float Y component of phase shift of turbulence field. This influences the direction of the disruption. phaseZ / pz float Z component of phase shift of turbulence field. This influences the direction of the disruption. position / pos float, float, float Position in space where you want to place a field. The field then emanates from this position in space rather than from an object. Note that you can both use -pos (creating a field at a position) and also provide object names. Flag can have multiple arguments, passed either as a tuple or a list. torusSectionRadius / tsr float volumeExclusion / vex bool volumeOffset / vof float, float, float volumeShape / vsh unicode volumeSweep / vsw float Derived from mel command maya.cmds.turbulence
Example:
import pymel.core as pm # Creates a new field pm.turbulence( n='turbulenceF', m=5.0, pos=(0.25, 0, 0) ) # Result: nt.TurbulenceField(u'turbulenceF') # # Edits the frequency value of the field named turbulenceF pm.turbulence( 'turbulenceF', e=True, f=0.5 ) # Result: nt.TurbulenceField(u'turbulenceF') # # Queries turbulenceF for its frequency value pm.turbulence( 'turbulenceF', q=True, f=1 ) # Result: 0.5 #