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Synopsis

joint( [objects] , [absolute=boolean], [angleX=angle], [angleY=angle], [angleZ=angle], [assumePreferredAngles=boolean], [automaticLimits=boolean], [children=boolean], [component=boolean], [degreeOfFreedom=string], [exists=string], [limitSwitchX=boolean], [limitSwitchY=boolean], [limitSwitchZ=boolean], [limitX=[angle, angle]], [limitY=[angle, angle]], [limitZ=[angle, angle]], [name=string], [orientJoint=string], [orientation=[angle, angle, angle]], [position=[linear, linear, linear]], [radius=float], [relative=boolean], [rotationOrder=string], [scale=[float, float, float]], [scaleCompensate=boolean], [scaleOrientation=[angle, angle, angle]], [secondaryAxisOrient=string], [setPreferredAngles=boolean], [stiffnessX=float], [stiffnessY=float], [stiffnessZ=float], [zeroScaleOrient=boolean])

Note: Strings representing object names and arguments must be separated by commas. This is not depicted in the synopsis.

joint is undoable, queryable, and editable.

The joint command is used to create, edit, and query, joints within Maya. (The standard edit(-e) and query(-q) flags are used for edit and query functions). If the object is not specified, the currently selected object (dag object) will be used.

Multiple objects are allowed only for the edit mode. The same edit flags will be applied on all the joints selected, except for -p without -r (set joint position in the world space). An ik handle in the object list is equivalent to the list of joints the ik handle commands. When -ch/children is present, all the child joints of the specified joints, including the joints implied by possible ik handles, will also be included.

In the creation mode, a new joint will be created as a child of a selected transform or starts a hierarchy by itself if no transform is selected. An ik handle will be treated as a transform in the creation mode.

The default values of the arguments are:

-degreeOfFreedom xyz

-name "Joint#"

-position 0 0 0

-absolute

-dof "xyz"

-scale 1.0 1.0 1.0

-scaleCompensate true

-orientation 0.0 0.0 0.0

-scaleOrientation 0.0 0.0 0.0

-limitX -360 360

-limitY -360 360

-limitZ -360 360

-angleX 0.0

-angleY 0.0

-angleZ 0.0

-stiffnessX 0.0

-stiffnessY 0.0

-stiffnessZ 0.0

-limitSwitchX no

-limitSwitchY no

-limitSwitchZ no

-rotationOrder xyz

Those arguments can be specified in the creation mode, editied in the edit mode (-e), or queried in the query mode (-q).

Return value

string

In query mode, return type is based on queried flag.

Related

connectJoint, ikHandle, ikHandleDisplayScale, ikSolver, ikSystem, ikSystemInfo, insertJoint, jointCluster, jointDisplayScale, jointLattice, mirrorJoint, removeJoint, removeJoint

Flags

absolute, angleX, angleY, angleZ, assumePreferredAngles, automaticLimits, children, component, degreeOfFreedom, exists, limitSwitchX, limitSwitchY, limitSwitchZ, limitX, limitY, limitZ, name, orientJoint, orientation, position, radius, relative, rotationOrder, scale, scaleCompensate, scaleOrientation, secondaryAxisOrient, setPreferredAngles, stiffnessX, stiffnessY, stiffnessZ, zeroScaleOrient
Long name (short name) Argument types Properties
position(p) [linear, linear, linear] createqueryedit
Specifies the position of the center of the joint. This position may be relative to the joint's parent or in absolute world coordinates (see -r and -a below). When queried, this flag returns 3 floats.
relative(r) boolean createqueryedit
The joint center position is relative to the joint's parent.
absolute(a) boolean createqueryedit
The joint center position is in absolute world coordinates. (This is the default.)
component(co) boolean createedit
Use with the -position switch to position the joint relative to its parent (like -relative) but to compute new positions for all children joints so their world coordinate positions do not change.
name(n) string createqueryedit
Specifies the name of the joint. When queried, this flag returns a string.
degreeOfFreedom(dof) string createqueryedit
Specifies the degrees of freedom for the IK. Valid strings consist of non-duplicate letters from x, y, and z. The letters in the string indicate what rotations are to be used by IK. The order a letter appear in the string does not matter. Examples are x, yz, xyz. When queried, this flag returns a string. Modifying dof will change the locking state of the corresponding rotation attributes. The rule is: if an rotation is turned into a dof, it will be unlocked if it is currently locked. When it is turned into a non-dof, it will be locked if it is not currently locked.
orientation(o) [angle, angle, angle] createqueryedit
The joint orientation. When queried, this flag returns 3 floats.
rotationOrder(roo) string createqueryedit
The rotation order of the joint. The argument can be one of the following strings: xyz, yzx, zxy, zyx, yxz, xzy.
scaleOrientation(so) [angle, angle, angle] createqueryedit
Set the orientation of the coordinate axes for scaling. When queried, this flag returns 3 floats.
scale(s) [float, float, float] createqueryedit
Scale of the joint. When queried, this flag returns 3 floats.
scaleCompensate(sc) boolean createqueryedit
It sets the scaleCompenstate attribute of the joint to the given argument. When this is true, the scale of the parent joint will be compensated before any rotation of this joint is applied, so that the bone to the joint is scaled but not the bones to its child joints. When queried, this flag returns an boolean.
limitX(lx) [angle, angle] createqueryedit
Set lower and upper limits on the x-axis of rotation. Also turns on the joint limit. When queried, this flag returns 2 floats.
limitY(ly) [angle, angle] createqueryedit
Set lower and upper limits on the y-axis of rotation. Also turns on the joint limit. When queried, this flag returns 2 floats.
limitZ(lz) [angle, angle] createqueryedit
Set lower and upper limits on the z-axis of rotation. Also turns on the joint limit. When queried, this flag returns 2 floats.
angleX(ax) angle createqueryedit
Set the x-axis angle. When queried, this flag returns a float.
angleY(ay) angle createqueryedit
Set the y-axis angle. When queried, this flag returns a float.
angleZ(az) angle createqueryedit
Set the z-axis angle. When queried, this flag returns a float.
stiffnessX(stx) float createqueryedit
Set the stiffness (from 0 to 100.0) for x-axis. When queried, this flag returns a float.
stiffnessY(sty) float createqueryedit
Set the stiffness (from 0 to 100.0) for y-axis. When queried, this flag returns a float.
stiffnessZ(stz) float createqueryedit
Set the stiffness (from 0 to 100.0) for z-axis. When queried, this flag returns a float.
limitSwitchX(lsx) boolean createqueryedit
Use the limit the x-axis rotation? When queried, this flag returns a boolean.
limitSwitchY(lsy) boolean createqueryedit
Use the limit the y-axis rotation? When queried, this flag returns a boolean.
limitSwitchZ(lsz) boolean createqueryedit
Use the Limit the z-axis rotation? When queried, this flag returns a boolean.
exists(ex) string query
Does the named joint exist? When queried, this flag returns a boolean.
automaticLimits(al) boolean create
Meaningful only in edit mode. It sets the joint to appropriate hinge joint with joint limits. It modifies the joint only if (a) it connects exactly to two joints (one parent, one child), (b) it does not lie on the line drawn between the two connected joints, and the plane it forms with the two connected joints is perpendicular to one of its rotation axes.
setPreferredAngles(spa) boolean edit
Meaningful only in the edit mode. It sets the preferred angles to the current joint angles.
assumePreferredAngles(apa) boolean edit
Meaningful only in the edit mode. It sets the joint angles to the corresponding preferred angles.
children(ch) boolean edit
It tells the command to apply all the edit options not only to the selected joints, but also to their descendent joints in the DAG.
radius(rad) float createqueryedit
Specifies the joint radius.
orientJoint(oj) string edit
The argument can be one of the following strings: xyz, yzx, zxy, zyx, yxz, xzy, none.

It modifies the joint orientation and scale orientation so that the axis indicated by the first letter in the argument will be aligned with the vector from this joint to its first child joint. For example, if the argument is "xyz", the x-axis will point towards the child joint.

The alignment of the remaining two joint orient axes are dependent on whether or not the -sao/-secondaryAxisOrient flag is used. If the -sao flag is used, see the documentation for that flag for how the remaining axes are aligned.

In the absence of a user specification for the secondary axis orientation, the rotation axis indicated by the last letter in the argument will be aligned with the vector perpendicular to first axis and the vector from this joint to its parent joint.

The remaining axis is aligned according the right hand rule.

If the argument is "none", the joint orientation will be set to zero and its effect to the hierarchy below will be offset by modifying the scale orientation.

The flag will be ignored if:

A. the joint has non-zero rotations when the argument is not "none".

B. the joint does not have child joint, or the distance to the child joint is zero when the argument is not "none".

C. either flag -o or -so is set.

secondaryAxisOrient(sao) string edit
The argument can be one of the following strings: xup, xdown, yup, ydown, zup, zdown, none.

This flag is used in conjunction with the -oj/orientJoint flag. It specifies the scene axis that the second axis should align with. For example, a flag combination of "-oj yzx -sao yup" would result in the y-axis pointing down the bone, the z-axis oriented with the scene's positive y-axis, and the x-axis oriented according to the right hand rule.

zeroScaleOrient(zso) boolean edit
It sets the scale orientation to zero and compensate the change by modifing the translation and joint orientation for joint or rotation for general transform of all its child transformations.

The flag will be ignored if the flag -so is set.


Flag can appear in Create mode of command Flag can appear in Edit mode of command
Flag can appear in Query mode of command Flag can have multiple arguments, passed either as a tuple or a list.

Python examples

import maya.cmds as cmds

# Create a 3-joint chain
#
cmds.select( d=True )
cmds.joint( p=(0, 0, 0) )
cmds.joint( p=(0, 4, 0)  )
cmds.joint( 'joint1', e=True, zso=True, oj='xyz' )
cmds.joint( p=(0, 8, -1) )
cmds.joint( 'joint2', e=True, zso=True, oj='xyz' )

# Create a fourth joint with z joint limits of -90 deg for
# the lower limit and 90 deg for the upper limit.  The
# joint will be positioned at (0, 0, 4) in world
# coordinates.
#
cmds.joint( lz=('-90deg', '90deg'), p=(0, 8, 4) )

# Set the joint limits but leave them disabled.
cmds.joint( edit=True, lz=('-90deg', '90deg'), lsz=False )