pymel.core.animation.findKeyframe¶
- findKeyframe(*args, **kwargs)¶
This command operates on a keyset. A keyset is defined as a group of keys within a specified time range on one or more animation curves. The animation curves comprising a keyset depend on the value of the -animationflag: keysOrObjects: Any active keys, when no target objects or -attribute flags appear on the command line, orAll animation curves connected to all keyframable attributes of objects specified as the command line’s targetList, when there are no active keys.keys: Only act on active keys or tangents. If there are no active keys or tangents, don’t do anything. objects: Only act on specified objects. If there are no objects specified, don’t do anything. Note that the -animationflag can be used to override the curves uniquely identified by the multi-use -attributeflag, which takes an argument of the form attributeName, such as translateX. Keys on animation curves are identified by either their time values or their indices. Times and indices can be given individually or as part of a list or range (see Examples). This command will return the time (in current units) of the requested key. For the relative direction methods (next, previous) if -time is NOT specified they will use current time. If the specified object is not animated the command will return the current time.
Flags:
Long Name / Short Name Argument Types Properties animation / an unicode Where this command should get the animation to act on. Valid values are objects,keys,and keysOrObjectsDefault: keysOrObjects.(See Description for details.) attribute / at unicode List of attributes to select controlPoints / cp bool This flag explicitly specifies whether or not to include the control points of a shape (see -sflag) in the list of attributes. Default: false. (Not valid for pasteKeycmd.) curve / c bool Return a list of the existing curves driving the selected object or attributes. The which, index, floatRange, timeRange, and includeUpperBound flags are ignored when this flag is used. float / f floatrange value uniquely representing a non-time-based key (or key range) on a time-based animCurve. Valid floatRange include single values (-f 10) or a string with a lower and upper bound, separated by a colon (-f 10:20 hierarchy / hi unicode Hierarchy expansion options. Valid values are above,below,both,and none.(Not valid for pasteKeycmd.) includeUpperBound / iub bool When the -t/time or -f/float flags represent a range of keys, this flag determines whether the keys at the upper bound of the range are included in the keyset. Default value: true. This flag is only valid when the argument to the -t/time flag is a time range with a lower and upper bound. (When used with the pasteKeycommand, this flag refers only to the time range of the target curve that is replaced, when using options such as replace,fitReplace,or scaleReplace.This flag has no effect on the curve pasted from the clipboard.) index / index int index of a key on an animCurve shape / s bool Consider attributes of shapes below transforms as well, except controlPoints. Default: true. (Not valid for pasteKeycmd.) time / t timerange time uniquely representing a key (or key range) on a time-based animCurve. Valid timeRanges include single values (-t 10) or a string with a lower and upper bound, separated by a colon (-t 10:20 timeSlider / ts bool Get the next key time from the ticks displayed in the time slider. If this flag is set, then the -an/animation flag is ignored. which / w unicode next | previous | first | last How to find the key Flag can have multiple arguments, passed either as a tuple or a list. Derived from mel command maya.cmds.findKeyframe
Example:
import pymel.core as pm # Find the next key from the current time, based upon the ticks # displayed within the time slider # pm.findKeyframe( timeSlider=True, which="next" ) # Result: 1.0 # # Find the next key for nurbsCone1 after time 25 # pm.findKeyframe( 'nurbsCone1', time=(25,25), which="next" ) # Find the curves driving the nurbsCone1's rotateX attribute # pm.findKeyframe( 'nurbsCone1', curve=True, at='rotateX' )