PxArticulationReducedCoordinate
Defined in include/PxArticulationReducedCoordinate.h
-
class PxArticulationReducedCoordinate : public PxBase
A tree structure of bodies connected by joints that is treated as a unit by the dynamics solver.
Parametrized in reduced (joint) coordinates.
See also
PxArticulationJointReducedCoordinate, PxArticulationLink, PxPhysics::createArticulationReducedCoordinate
Public Functions
-
virtual PxScene *getScene() const = 0
Returns the scene which this articulation belongs to.
See also
PxScene
- Returns
Owner Scene. NULL if not part of a scene.
-
virtual void setSolverIterationCounts(PxU32 minPositionIters, PxU32 minVelocityIters = 1) = 0
Sets the solver iteration counts for the articulation.
The solver iteration count determines how accurately contacts, drives, and limits are resolved. Setting a higher position iteration count may therefore help in scenarios where the articulation is subject to many constraints; for example, a manipulator articulation with drives and joint limits that is grasping objects, or several such articulations interacting through contacts. Other situations where higher position iterations may improve simulation fidelity are: large mass ratios within the articulation or between the articulation and an object in contact with it; or strong drives in the articulation being used to manipulate a light object.
If intersecting bodies are being depenetrated too violently, increase the number of velocity iterations. More velocity iterations will drive the relative exit velocity of the intersecting objects closer to the correct value given the restitution.
See also
getSolverIterationCounts()
Note
This call may not be made during simulation.
- Parameters
minPositionIters – [in] Number of position iterations the solver should perform for this articulation. Range: [1,255]. Default: 4.
minVelocityIters – [in] Number of velocity iterations the solver should perform for this articulation. Range: [0,255]. Default: 1
-
virtual void getSolverIterationCounts(PxU32 &minPositionIters, PxU32 &minVelocityIters) const = 0
Returns the solver iteration counts.
See also
setSolverIterationCounts()
-
virtual bool isSleeping() const = 0
Returns true if this articulation is sleeping.
When an actor does not move for a period of time, it is no longer simulated in order to reduce computational cost. This state is called sleeping. However, because the object automatically wakes up when it is either touched by an awake object, or a sleep-affecting property is changed by the user, the entire sleep mechanism should be transparent to the user.
An articulation can only go to sleep if all links are ready for sleeping. An articulation is guaranteed to be awake if at least one of the following holds:
The wake counter of any link in the articulation is positive (see setWakeCounter()).
The mass-normalized energy of any link in the articulation is above a threshold (see setSleepThreshold()).
A non-zero force or torque has been applied to any joint or link.
The wake counter is zero.
The linear and angular velocity of all links is zero.
There is no force update pending.
If an articulation is asleep after the call to PxScene::fetchResults() returns, it is guaranteed that the poses of the links were not changed. You can use this information to avoid updating the transforms of associated objects.
See also
wakeUp() putToSleep() getSleepThreshold() setSleepThreshold()
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
- Returns
True if the articulation is sleeping.
-
virtual void setSleepThreshold(PxReal threshold) = 0
Sets the mass-normalized energy threshold below which the articulation may go to sleep.
The articulation will sleep if the energy of each link is below this threshold.
Default: 5e-5f * PxTolerancesScale::speed * PxTolerancesScale::speed;
See also
isSleeping() getSleepThreshold() wakeUp() putToSleep()
Note
This call may not be made during simulation.
- Parameters
threshold – [in] Energy below which the articulation may go to sleep. Range: [0, PX_MAX_F32)
-
virtual PxReal getSleepThreshold() const = 0
Returns the mass-normalized energy below which the articulation may go to sleep.
See also
isSleeping() wakeUp() putToSleep() setSleepThreshold()
- Returns
The energy threshold for sleeping.
-
virtual void setStabilizationThreshold(PxReal threshold) = 0
Sets the mass-normalized kinetic energy threshold below which the articulation may participate in stabilization.
Articulations whose kinetic energy divided by their mass is above this threshold will not participate in stabilization.
This value has no effect if PxSceneFlag::eENABLE_STABILIZATION was not enabled on the PxSceneDesc.
Default: 5e-6f * PxTolerancesScale::speed * PxTolerancesScale::speed
See also
getStabilizationThreshold() PxSceneFlag::eENABLE_STABILIZATION
Note
This call may not be made during simulation.
- Parameters
threshold – [in] Energy below which the articulation may participate in stabilization. Range: [0,inf)
-
virtual PxReal getStabilizationThreshold() const = 0
Returns the mass-normalized kinetic energy below which the articulation may participate in stabilization.
Articulations whose kinetic energy divided by their mass is above this threshold will not participate in stabilization.
See also
setStabilizationThreshold() PxSceneFlag::eENABLE_STABILIZATION
- Returns
The energy threshold for participating in stabilization.
-
virtual void setWakeCounter(PxReal wakeCounterValue) = 0
Sets the wake counter for the articulation in seconds.
The wake counter value specifies a time threshold used to determine whether an articulation may be put to sleep.
The articulation will be put to sleep if all links have experienced a mass-normalised energy less than a threshold for at least a threshold time, as specified by the wake counter.
Passing in a positive value will wake up the articulation automatically.
Default: 0.4s (which corresponds to 20 frames for a time step of 0.02s)
See also
isSleeping() getWakeCounter()
Note
This call may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
- Parameters
wakeCounterValue – [in] Wake counter value in seconds. Range: [0, PX_MAX_F32)
-
virtual PxReal getWakeCounter() const = 0
Returns the wake counter of the articulation in seconds.
See also
isSleeping() setWakeCounter()
Note
This call may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
- Returns
The wake counter of the articulation in seconds.
-
virtual void wakeUp() = 0
Wakes up the articulation if it is sleeping.
The articulation will be woken up and might cause other touching objects to wake up as well during the next simulation step.
This will set the wake counter of the articulation to the value specified in PxSceneDesc::wakeCounterResetValue.
See also
isSleeping() putToSleep()
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
-
virtual void putToSleep() = 0
Forces the articulation to sleep.
The articulation will stay asleep during the next simulation step if not touched by another non-sleeping actor.
This will set any applied force, the velocity, and the wake counter of all bodies in the articulation to zero.
See also
isSleeping() wakeUp()
Note
This call may not be made during simulation, and may only be made on articulations that are in a scene.
-
virtual void setMaxCOMLinearVelocity(const PxReal maxLinearVelocity) = 0
Sets the limit on the magnitude of the linear velocity of the articulation’s center of mass.
- Deprecated:
The COM velocity limits will be removed in a future version without replacement.
The limit acts on the linear velocity of the entire articulation. The velocity is calculated from the total momentum and the spatial inertia of the articulation.
The limit only applies to floating-base articulations.
A benefit of the COM velocity limit is that it is evenly applied to the whole articulation, which results in fewer visual artifacts compared to link rigid-body damping or joint-velocity limits. However, these per-link or per-degree-of-freedom limits may still help avoid numerical issues.
See also
setMaxCOMAngularVelocity, PxRigidBody::setLinearDamping, PxRigidBody::setAngularDamping, PxArticulationJointReducedCoordinate::setMaxJointVelocity
Note
This call may not be made during simulation.
- Parameters
maxLinearVelocity – [in] The maximal linear velocity magnitude. Range: [0, PX_MAX_F32); Default: 1e+6.
-
virtual PxReal getMaxCOMLinearVelocity() const = 0
Gets the limit on the magnitude of the linear velocity of the articulation’s center of mass.
- Deprecated:
The COM velocity limits will be removed in a future version without replacement.
See also
setMaxCOMLinearVelocity
- Returns
The maximal linear velocity magnitude.
-
virtual void setMaxCOMAngularVelocity(const PxReal maxAngularVelocity) = 0
Sets the limit on the magnitude of the angular velocity at the articulation’s center of mass.
- Deprecated:
The COM velocity limits will be removed in a future version without replacement.
The limit acts on the angular velocity of the entire articulation. The velocity is calculated from the total momentum and the spatial inertia of the articulation.
The limit only applies to floating-base articulations.
A benefit of the COM velocity limit is that it is evenly applied to the whole articulation, which results in fewer visual artifacts compared to link rigid-body damping or joint-velocity limits. However, these per-link or per-degree-of-freedom limits may still help avoid numerical issues.
See also
setMaxCOMLinearVelocity, PxRigidBody::setLinearDamping, PxRigidBody::setAngularDamping, PxArticulationJointReducedCoordinate::setMaxJointVelocity
Note
This call may not be made during simulation.
- Parameters
maxAngularVelocity – [in] The maximal angular velocity magnitude. Range: [0, PX_MAX_F32); Default: 1e+6
-
virtual PxReal getMaxCOMAngularVelocity() const = 0
Gets the limit on the magnitude of the angular velocity at the articulation’s center of mass.
- Deprecated:
The COM velocity limits will be removed in a future version without replacement.
See also
setMaxCOMAngularVelocity
- Returns
The maximal angular velocity magnitude.
-
virtual PxArticulationLink *createLink(PxArticulationLink *parent, const PxTransform &pose) = 0
Adds a link to the articulation with default attribute values.
See also
PxArticulationLink
Note
Creating a link is not allowed while the articulation is in a scene. In order to add a link, remove and then re-add the articulation to the scene.
Note
When the articulation is added to a scene, the root link adopts the specified pose. The pose of the root link is propagated through the ensemble of links from parent to child after accounting for each child’s inbound joint frames and the joint positions set by PxArticulationJointReducedCoordinate::setJointPosition(). As a consequence, the pose of each non-root link is automatically overwritten when adding the articulation to the scene.
- Parameters
parent – [in] The parent link in the articulation. Must be NULL if (and only if) this is the root link.
pose – [in] The initial pose of the new link. Must be a valid transform.
- Returns
The new link, or NULL if the link cannot be created.
-
virtual void release() = 0
Releases the articulation, and all its links and corresponding joints.
Attached mimic joints and tendons are released automatically when the articulation is released.
Note
This call may not be made during simulation.
Note
This call does not release any PxArticulationCache instance that has been instantiated using createCache()
-
virtual PxU32 getNbLinks() const = 0
Returns the number of links in the articulation.
- Returns
The number of links.
-
virtual PxU32 getLinks(PxArticulationLink **userBuffer, PxU32 bufferSize, PxU32 startIndex = 0) const = 0
Returns the set of links in the articulation in the order that they were added to the articulation using createLink.
The order of the links may be different from the order in which the data is stored in the cache, see PxArticulationLink::getLinkIndex.
See also
PxArticulationLink
- Parameters
userBuffer – [in] Buffer into which to write the array of articulation link pointers.
bufferSize – [in] The size of the buffer. If the buffer is not large enough to contain all the pointers to links, only as many as will fit are written.
startIndex – [in] Index of first link pointer to be retrieved.
- Returns
The number of links written into the buffer.
-
virtual PxU32 getNbShapes() const = 0
Returns the number of shapes in the articulation.
- Returns
The number of shapes.
-
virtual void setName(const char *name) = 0
Sets a name string for the articulation that can be retrieved with getName().
This is for debugging and is not used by the SDK. The string is not copied by the SDK, only the pointer is stored.
See also
getName()
- Parameters
name – [in] A pointer to a char buffer used to specify the name of the articulation.
-
virtual const char *getName() const = 0
Returns the name string set with setName().
See also
setName()
- Returns
Name string associated with the articulation.
-
virtual PxBounds3 getWorldBounds(float inflation = 1.01f) const = 0
Returns the axis-aligned bounding box enclosing the articulation.
See also
PxBounds3
Note
It is not allowed to use this method while the simulation is running, except in a split simulation during PxScene::collide() and up to PxScene::advance(), and in PxContactModifyCallback or in contact report callbacks.
- Parameters
inflation – [in] Scale factor for computed world bounds. Box extents are multiplied by this value.
- Returns
The articulation’s bounding box.
-
virtual PxAggregate *getAggregate() const = 0
Returns the aggregate associated with the articulation.
See also
PxAggregate
- Returns
The aggregate associated with the articulation or NULL if the articulation does not belong to an aggregate.
-
virtual void setArticulationFlags(PxArticulationFlags flags) = 0
Sets flags on the articulation.
See also
PxArticulationFlag
Note
This call may not be made during simulation.
- Parameters
flags – [in] The articulation flags.
-
virtual void setArticulationFlag(PxArticulationFlag::Enum flag, bool value) = 0
Raises or clears a flag on the articulation.
See also
PxArticulationFlag
Note
This call may not be made during simulation.
- Parameters
flag – [in] The articulation flag.
value – [in] The value to set the flag to.
-
virtual PxArticulationFlags getArticulationFlags() const = 0
Returns the articulation’s flags.
See also
PxArticulationFlag
- Returns
The articulation’s flags.
-
virtual PxU32 getDofs() const = 0
Returns the total number of joint degrees-of-freedom (DOFs) of the articulation.
The six DOFs of the base of a floating-base articulation are not included in this count.
Example: Both a fixed-base and a floating-base double-pendulum with two revolute joints will have getDofs() == 2.
The return value is only valid for articulations that are in a scene.
- Returns
The number of joint DOFs, or 0xFFFFFFFF if the articulation is not in a scene.
-
virtual PxArticulationCache *createCache() const = 0
Creates an articulation cache that can be used to read and write internal articulation data.
When the structure of the articulation changes (e.g. adding a link) after the cache was created, the cache needs to be released and recreated.
Free the memory allocated for the cache by calling the release() method on the cache.
Caches can only be created by articulations that are in a scene.
See also
applyCache, copyInternalStateToCache
- Returns
The cache, or NULL if the articulation is not in a scene.
-
virtual PxU32 getCacheDataSize() const = 0
Returns the size of the articulation cache in bytes.
The size does not include: the user-allocated memory for the coefficient matrix or lambda values; the scratch-related memory/members; and the cache version. See comment in PxArticulationCache.
The return value is only valid for articulations that are in a scene.
See also
PxArticulationCache
- Returns
The byte size of the cache, or 0xFFFFFFFF if the articulation is not in a scene.
-
virtual void zeroCache(PxArticulationCache &cache) const = 0
Zeroes all data in the articulation cache, except user-provided and scratch memory, and cache version.
See also
PxArticulationCache
Note
This call may only be made on articulations that are in a scene.
-
virtual void applyCache(PxArticulationCache &cache, const PxArticulationCacheFlags flags, bool autowake = true) = 0
Applies the data in the cache to the articulation.
This call wakes the articulation if it is sleeping, and the autowake parameter is true (default) or:
a nonzero joint velocity is applied or
a nonzero joint force is applied or
a nonzero root velocity is applied
See also
PxArticulationCache, PxArticulationCacheFlags, createCache, copyInternalStateToCache, PxScene::applyArticulationData
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [in] The articulation data.
flags – [in] Indicate which data in the cache to apply to the articulation.
autowake – [in] If true, the call wakes up the articulation and increases the wake counter to PxSceneDesc::wakeCounterResetValue if the counter value is below the reset value.
-
virtual void copyInternalStateToCache(PxArticulationCache &cache, const PxArticulationCacheFlags flags) const = 0
Copies internal data of the articulation to the cache.
See also
PxArticulationCache, PxArticulationCacheFlags, createCache, applyCache
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [in] The articulation data.
flags – [in] Indicate which data to copy from the articulation to the cache.
-
virtual void packJointData(const PxReal *maximum, PxReal *reduced) const = 0
Converts maximal-coordinate joint DOF data to reduced coordinates.
Indexing into the maximal joint DOF data is via the link’s low-level index minus 1 (the root link is not included).
The reduced-coordinate data follows the cache indexing convention, see PxArticulationCache::jointVelocity.
See also
unpackJointData
Note
The articulation must be in a scene.
Note
This can be used as a helper function to prepare per joint cache data such as PxArticulationCache::jointVelocity.
- Parameters
maximum – [in] The maximal-coordinate joint DOF data with minimum array length N = (getNbLinks() - 1) * 6
reduced – [out] The reduced-coordinate joint DOF data with minimum array length N = getDofs()
-
virtual void unpackJointData(const PxReal *reduced, PxReal *maximum) const = 0
Converts reduced-coordinate joint DOF data to maximal coordinates.
Indexing into the maximal joint DOF data is via the link’s low-level index minus 1 (the root link is not included).
The reduced-coordinate data follows the cache indexing convention, see PxArticulationCache::jointVelocity.
See also
packJointData
Note
The articulation must be in a scene.
- Parameters
reduced – [in] The reduced-coordinate joint DOF data with minimum array length N = getDofs().
maximum – [out] The maximal-coordinate joint DOF data with minimum array length N = (getNbLinks() - 1) * 6.
-
virtual void commonInit() const = 0
Prepares common articulation data based on articulation pose for inverse dynamics calculations.
Usage:
Set articulation pose (joint positions and base transform) via articulation cache and applyCache().
Call commonInit.
Call inverse dynamics computation method.
See also
computeGeneralizedGravityForce, computeCoriolisAndCentrifugalForce
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
-
virtual void computeGeneralizedGravityForce(PxArticulationCache &cache) const = 0
Computes the joint DOF forces required to counteract gravitational forces for the given articulation pose.
Inputs: Articulation pose (joint positions + base transform).
Outputs: Joint forces to counteract gravity (in cache).
The joint forces returned are determined purely by gravity for the articulation in the current joint and base pose, and joints at rest; i.e. external forces, joint velocities, and joint accelerations are set to zero. Joint drives are also not considered in the computation.
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [out] Out: PxArticulationCache::jointForce.
-
virtual void computeCoriolisAndCentrifugalForce(PxArticulationCache &cache) const = 0
Computes the joint DOF forces required to counteract Coriolis and centrifugal forces for the given articulation state.
Inputs: Articulation state (joint positions and velocities (in cache), and base transform and spatial velocity).
Outputs: Joint forces to counteract Coriolis and centrifugal forces (in cache).
The joint forces returned are determined purely by the articulation’s state; i.e. external forces, gravity, and joint accelerations are set to zero. Joint drives and potential damping terms, such as link angular or linear damping, or joint friction, are also not considered in the computation.
Prior to the computation, update/set the base spatial velocity with PxArticulationCache::rootLinkData and applyCache().
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [inout] In: PxArticulationCache::jointVelocity; Out: PxArticulationCache::jointForce.
-
virtual void computeGeneralizedExternalForce(PxArticulationCache &cache) const = 0
Computes the joint DOF forces required to counteract external spatial forces applied to articulation links.
Inputs: External forces on links (in cache), articulation pose (joint positions + base transform).
Outputs: Joint forces to counteract the external forces (in cache).
Only the external spatial forces provided in the cache and the articulation pose are considered in the computation.
The external spatial forces are with respect to the links’ centers of mass, and not the actor’s origin.
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [inout] In: PxArticulationCache::externalForces; Out: PxArticulationCache::jointForce.
-
virtual void computeJointAcceleration(PxArticulationCache &cache) const = 0
Computes the joint accelerations for the given articulation state and joint forces.
Inputs: Joint forces (in cache) and articulation state (joint positions and velocities (in cache), and base transform and spatial velocity).
Outputs: Joint accelerations (in cache).
The computation includes Coriolis terms and gravity. However, joint drives, external forces, and potential damping (link damping, friction) terms are not considered in the computation.
Prior to the computation, update/set the base spatial velocity with PxArticulationCache::rootLinkData and applyCache().
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [inout] In: PxArticulationCache::jointForce and PxArticulationCache::jointVelocity; Out: PxArticulationCache::jointAcceleration.
-
virtual void computeJointForce(PxArticulationCache &cache) const = 0
Computes the joint forces for the given articulation state and joint accelerations, not considering gravity.
Inputs: Joint accelerations (in cache) and articulation state (joint positions and velocities (in cache), and base transform and spatial velocity).
Outputs: Joint forces (in cache).
The computation includes Coriolis terms. However, joint drives and potential damping terms are not considered in the computation (for example, linear link damping or joint friction).
Prior to the computation, update/set the base spatial velocity with PxArticulationCache::rootLinkData and applyCache().
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [inout] In: PxArticulationCache::jointAcceleration and PxArticulationCache::jointVelocity; Out: PxArticulationCache::jointForce.
-
virtual void computeDenseJacobian(PxArticulationCache &cache, PxU32 &nRows, PxU32 &nCols) const = 0
Compute the dense Jacobian for the articulation in world space, including the DOFs of a potentially floating base.
This computes the dense representation of an inherently sparse matrix. Multiplication with this matrix maps joint space velocities to world-space linear and angular (i.e. spatial) velocities of the centers of mass of the links.
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [out] Sets cache.denseJacobian matrix. The matrix is indexed [nCols * row + column].
nRows – [out] Set to number of rows in matrix, which corresponds to nbLinks() * 6, minus 6 if PxArticulationFlag::eFIX_BASE is true.
nCols – [out] Set to number of columns in matrix, which corresponds to the number of joint DOFs, plus 6 in the case PxArticulationFlag::eFIX_BASE is false.
-
virtual void computeCoefficientMatrix(PxArticulationCache &cache) const = 0
Computes the coefficient matrix for contact forces.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
The matrix dimension is getCoefficientMatrixSize() = getDofs() * getNbLoopJoints(), and the DOF (column) indexing follows the internal DOF order, see PxArticulationCache::jointVelocity.
Each column in the matrix is the joint forces effected by a contact based on impulse strength 1.
The user must allocate memory for PxArticulationCache::coefficientMatrix where the required size of the PxReal array is equal to getCoefficientMatrixSize().
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit, getCoefficientMatrixSize
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [out] Out: PxArticulationCache::coefficientMatrix.
-
virtual bool computeLambda(PxArticulationCache &cache, PxArticulationCache &initialState, const PxReal *const jointTorque, const PxU32 maxIter) const = 0
Computes the lambda values when the test impulse is 1.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
The user must allocate memory for PxArticulationCache::lambda where the required size of the PxReal array is equal to getNbLoopJoints().
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit, getNbLoopJoints
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [out] Out: PxArticulationCache::lambda.
initialState – [in] The initial state of the articulation system.
jointTorque – [in] M(q)*qddot + C(q,qdot) + g(q) <- calculate by summing joint forces obtained with computeJointForce and computeGeneralizedGravityForce.
maxIter – [in] Maximum number of solver iterations to run. If the system converges, fewer iterations may be used.
- Returns
True if convergence was achieved within maxIter; False if convergence was not achieved or the operation failed otherwise.
-
virtual void computeGeneralizedMassMatrix(PxArticulationCache &cache) const = 0
Compute the joint-space inertia matrix that maps joint accelerations to joint forces: forces = M * accelerations.
Inputs: Articulation pose (joint positions and base transform).
Outputs: Mass matrix (in cache).
commonInit() must be called before the computation, and after setting the articulation pose via applyCache().
See also
commonInit
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
- Parameters
cache – [out] Out: PxArticulationCache::massMatrix.
-
virtual void addLoopJoint(PxConstraint *joint) = 0
Adds a loop joint to the articulation system for inverse dynamics.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
See also
PxContactJoint, PxFixedJoint, PxSphericalJoint, PxRevoluteJoint, PxPrismaticJoint, PxDistanceJoint, PxD6Joint
Note
This call may not be made during simulation.
- Parameters
joint – [in] The joint to add.
-
virtual void removeLoopJoint(PxConstraint *joint) = 0
Removes a loop joint from the articulation for inverse dynamics.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
Note
This call may not be made during simulation.
- Parameters
joint – [in] The joint to remove.
-
virtual PxU32 getNbLoopJoints() const = 0
Returns the number of loop joints in the articulation for inverse dynamics.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
- Returns
The number of loop joints.
-
virtual PxU32 getLoopJoints(PxConstraint **userBuffer, PxU32 bufferSize, PxU32 startIndex = 0) const = 0
Returns the set of loop constraints (i.e. joints) in the articulation.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
- Parameters
userBuffer – [in] Target buffer for the constraint pointers.
bufferSize – [in] The size of the buffer. If this is not large enough to contain all the pointers to the constraints, only as many as will fit are written. Use getNbLoopJoints() to size the buffer for retrieving all constraints.
startIndex – [in] Index of first constraint pointer to be retrieved.
- Returns
The number of constraints written into the buffer.
-
virtual PxU32 getCoefficientMatrixSize() const = 0
Returns the required size of the coefficient matrix in the articulation.
- Deprecated:
The API related to loop joints will be removed in a future version once a replacement is made available.
See also
computeCoefficientMatrix
Note
This call may only be made on articulations that are in a scene.
- Returns
Size of the coefficient matrix (equal to getDofs() * getNbLoopJoints()).
-
virtual void setRootGlobalPose(const PxTransform &pose, bool autowake = true) = 0
Sets the root link transform in the world frame.
Use updateKinematic() after all state updates to the articulation via non-cache API such as this method, in order to update link states for the next simulation frame or querying.
See also
getRootGlobalPose, updateKinematic, PxArticulationCache, applyCache
Note
This call may not be made during simulation.
Note
PxArticulationCache::rootLinkData similarly allows the root link pose to be updated and potentially offers better performance if the root link pose is to be updated along with other state variables.
- Parameters
pose – [in] The new root link transform.
autowake – [in] If true and the articulation is in a scene, the articulation will be woken up and the wake counter of each link will be reset to PxSceneDesc::wakeCounterResetValue.
-
virtual PxTransform getRootGlobalPose() const = 0
Returns the root link transform (world to actor frame).
See also
setRootGlobalPose, PxArticulationCache, copyInternalStateToCache
Note
This call is not allowed while the simulation is running except in a split simulation during PxScene::collide() and up to PxScene::advance(), and in PxContactModifyCallback or in contact report callbacks.
Note
PxArticulationCache::rootLinkData similarly allows the root link pose to be queried and potentially offers better performance if the root link pose is to be queried along with other state variables.
- Returns
The root link transform.
-
virtual void setRootLinearVelocity(const PxVec3 &linearVelocity, bool autowake = true) = 0
Sets the root link linear center-of-mass velocity.
The linear velocity is with respect to the link’s center of mass and not the actor frame origin.
The articulation is woken up if the input velocity is nonzero (ignoring autowake) and the articulation is in a scene.
Use updateKinematic() after all state updates to the articulation via non-cache API such as this method, in order to update link states for the next simulation frame or querying.
See also
updateKinematic, getRootLinearVelocity, setRootAngularVelocity, getRootAngularVelocity, PxRigidBody::getCMassLocalPose, PxArticulationCache, applyCache
Note
This call may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
Note
PxArticulationCache::rootLinkData similarly allows the root link linear velocity to be updated and potentially offers better performance if the root link linear velocity is to be updated along with other state variables.
- Parameters
linearVelocity – [in] The new root link center-of-mass linear velocity.
autowake – [in] If true and the articulation is in a scene, the call wakes up the articulation and increases the wake counter to PxSceneDesc::wakeCounterResetValue if the counter value is below the reset value.
-
virtual PxVec3 getRootLinearVelocity(void) const = 0
Gets the root link center-of-mass linear velocity.
The linear velocity is with respect to the link’s center of mass and not the actor frame origin.
See also
setRootLinearVelocity, setRootAngularVelocity, getRootAngularVelocity, PxRigidBody::getCMassLocalPose, PxArticulationCache, applyCache
Note
This call is not allowed while the simulation is running except in a split simulation during PxScene::collide() and up to PxScene::advance(), and in PxContactModifyCallback or in contact report callbacks.
Note
PxArticulationCache::rootLinkData similarly allows the root link linear velocity to be queried and potentially offers better performance if the root link linear velocity is to be queried along with other state variables.
- Returns
The root link center-of-mass linear velocity.
-
virtual void setRootAngularVelocity(const PxVec3 &angularVelocity, bool autowake = true) = 0
Sets the root link angular velocity.
The articulation is woken up if the input velocity is nonzero (ignoring autowake) and the articulation is in a scene.
Use updateKinematic() after all state updates to the articulation via non-cache API such as this method, in order to update link states for the next simulation frame or querying.
See also
updateKinematic, getRootAngularVelocity, setRootLinearVelocity, getRootLinearVelocity, PxArticulationCache, applyCache
Note
This call may not be made during simulation, except in a split simulation in-between PxScene::fetchCollision and PxScene::advance.
Note
PxArticulationCache::rootLinkData similarly allows the root link angular velocity to be updated and potentially offers better performance if the root link angular velocity is to be updated along with other state variables.
- Parameters
angularVelocity – [in] The new root link angular velocity.
autowake – [in] If true and the articulation is in a scene, the call wakes up the articulation and increases the wake counter to PxSceneDesc::wakeCounterResetValue if the counter value is below the reset value.
-
virtual PxVec3 getRootAngularVelocity(void) const = 0
Gets the root link angular velocity.
See also
setRootAngularVelocity, setRootLinearVelocity, getRootLinearVelocity, PxArticulationCache, applyCache
Note
This call is not allowed while the simulation is running except in a split simulation during PxScene::collide() and up to PxScene::advance(), and in PxContactModifyCallback or in contact report callbacks.
Note
PxArticulationCache::rootLinkData similarly allows the root link angular velocity to be queried and potentially offers better performance if the root link angular velocity is to be queried along with other state variables.
- Returns
The root link angular velocity.
-
virtual PxSpatialVelocity getLinkAcceleration(const PxU32 linkId) = 0
Returns the (classical) link acceleration in world space for the given low-level link index.
The returned acceleration is not a spatial, but a classical, i.e. body-fixed acceleration (https://en.wikipedia.org/wiki/Spatial_acceleration).
The (linear) acceleration is with respect to the link’s center of mass and not the actor frame origin.
See also
PxArticulationLink::getLinkIndex, PxRigidBody::getCMassLocalPose
Note
This call may only be made on articulations that are in a scene. It is not allowed to use this method while the simulation is running. The exceptions to this rule are a split simulation during PxScene::collide() and up to PxScene::advance(); in PxContactModifyCallback; and in contact report callbacks.
- Parameters
linkId – [in] The low-level link index, see PxArticulationLink::getLinkIndex.
- Returns
The link’s center-of-mass classical acceleration, or 0 if the call is made before the articulation participated in a first simulation step.
-
virtual PxU32 getGpuArticulationIndex() = 0
Returns the GPU articulation index.
- Deprecated:
use getGpuIndex() instead.
- Returns
The GPU index, or 0xFFFFFFFF if the articulation is not in a scene or PxSceneFlag::eENABLE_DIRECT_GPU_API is not set.
-
virtual PxArticulationGPUIndex getGPUIndex() const = 0
Returns the GPU articulation index.
- Returns
The GPU index, or 0xFFFFFFFF if the articulation is not in a scene.
-
virtual PxArticulationSpatialTendon *createSpatialTendon() = 0
Creates a spatial tendon to attach to the articulation with default attribute values.
See also
PxArticulationSpatialTendon
Note
Creating a spatial tendon is not allowed while the articulation is in a scene. In order to add the tendon, remove and then re-add the articulation to the scene.
Note
The spatial tendon is released with PxArticulationReducedCoordinate::release()
- Returns
The new spatial tendon.
-
virtual PxArticulationFixedTendon *createFixedTendon() = 0
Creates a fixed tendon to attach to the articulation with default attribute values.
See also
PxArticulationFixedTendon
Note
Creating a fixed tendon is not allowed while the articulation is in a scene. In order to add the tendon, remove and then re-add the articulation to the scene.
Note
The fixed tendon is released with PxArticulationReducedCoordinate::release()
- Returns
The new fixed tendon.
-
virtual PxU32 getSpatialTendons(PxArticulationSpatialTendon **userBuffer, PxU32 bufferSize, PxU32 startIndex = 0) const = 0
Returns the spatial tendons attached to the articulation.
The order of the tendons in the buffer is not necessarily identical to the order in which the tendons were added to the articulation.
See also
PxArticulationSpatialTendon, getNbSpatialTendons
- Parameters
userBuffer – [in] The buffer into which to write the array of pointers to the tendons.
bufferSize – [in] The size of the buffer. If this is not large enough to contain all the pointers to tendons, only as many as will fit are written. Use getNbSpatialTendons to size for all attached tendons.
startIndex – [in] Index of first tendon pointer to be retrieved.
- Returns
The number of tendons written into the buffer.
-
virtual PxU32 getNbSpatialTendons() const = 0
Returns the number of spatial tendons in the articulation.
- Returns
The number of tendons.
-
virtual PxU32 getFixedTendons(PxArticulationFixedTendon **userBuffer, PxU32 bufferSize, PxU32 startIndex = 0) const = 0
Returns the fixed tendons attached to the articulation.
The order of the tendons in the buffer is not necessarily identical to the order in which the tendons were added to the articulation.
See also
PxArticulationFixedTendon, getNbFixedTendons
- Parameters
userBuffer – [in] The buffer into which to write the array of pointers to the tendons.
bufferSize – [in] The size of the buffer. If this is not large enough to contain all the pointers to tendons, only as many as will fit are written. Use getNbFixedTendons to size for all attached tendons.
startIndex – [in] Index of first tendon pointer to be retrieved.
- Returns
The number of tendons written into the buffer.
-
virtual PxU32 getNbFixedTendons() const = 0
Returns the number of fixed tendons in the articulation.
- Returns
The number of tendons.
-
virtual PxArticulationMimicJoint *createMimicJoint(const PxArticulationJointReducedCoordinate &jointA, PxArticulationAxis::Enum axisA, const PxArticulationJointReducedCoordinate &jointB, PxArticulationAxis::Enum axisB, PxReal gearRatio, PxReal offset) = 0
Create a mimic joint that will enforce a relationship between two joints.
Note
The mimic joint enforces the rule: qA + gearRatio*qB + offset = 0 with qA denoting the joint position of the specified degree of freedom of jointA and qB denoting the joint position of the specified degree of freedom of jointB.
- Parameters
jointA – [in] is the first joint of the joint pair controlled by the mimic joint.
axisA – [in] specifies the degree of freedom of jointA that will be controlled by the mimic joint.
jointB – [in] is the second joint of the joint pair controlled by the mimic joint.
axisB – [in] specifies the degree of freedom of jointB that will be controlled by the mimic joint.
gearRatio – [in] is the gearing ratio enforced by the mimic joint.
offset – [in] is the offset enforced by the mimic joint.
-
virtual PxU32 getMimicJoints(PxArticulationMimicJoint **userBuffer, PxU32 bufferSize, PxU32 startIndex = 0) const = 0
Returns the mimic joints added to the articulation.
The order of the mimic joints in the buffer is not necessarily identical to the order in which the mimic joints were added to the articulation.
See also
PxArticulationMimicJoint, getNbMimicJoints
- Parameters
userBuffer – [in] The buffer into which to write the array of pointers to the mimic joints.
bufferSize – [in] The size of the buffer. If this is not large enough to contain all the pointers to mimic joints, only as many as will fit are written. Use getNbMimicJoints() to size for all attached mimic joints.
startIndex – [in] Index of first mimic joints pointer to be retrieved.
- Returns
The number of mimic joints written into the buffer.
-
virtual PxU32 getNbMimicJoints() const = 0
Returns the number of mimic joints in the articulation.
- Returns
The number of mimic joints.
-
virtual void updateKinematic(PxArticulationKinematicFlags flags) = 0
Update link velocities and/or positions in the articulation.
An alternative that potentially offers better performance is to use the PxArticulationCache API.
If the application updates the root state (position and velocity) or joint state via any combination of the non-cache API calls
setRootGlobalPose(), setRootLinearVelocity(), setRootAngularVelocity()
PxArticulationJointReducedCoordinate::setJointPosition(), PxArticulationJointReducedCoordinate::setJointVelocity()
the application needs to call this method after the state setting in order to update the link states for the next simulation frame or querying.
Use
PxArticulationKinematicFlag::ePOSITION after any changes to the articulation root or joint positions using non-cache API calls. Updates links’ positions and velocities.
PxArticulationKinematicFlag::eVELOCITY after velocity-only changes to the articulation root or joints using non-cache API calls. Updates links’ velocities only.
See also
PxArticulationKinematicFlags, PxArticulationCache, applyCache
Note
This call may only be made on articulations that are in a scene, and may not be made during simulation.
-
virtual PxArticulationResidual getSolverResidual() const = 0
Returns the internal residual for this articulation (does not include collision or external joint residual values).
The residual represents the current error in this constraint measured as the delta impulse applied in the last velocity or position iteration. If the solver converges perfectly, the residual should approach zero.
See also
PxArticulationResidual
- Returns
The residual for the articulation solver.
-
inline virtual ~PxArticulationReducedCoordinate()
-
virtual const char *getConcreteTypeName() const = 0
Returns string name of dynamic type.
- Returns
Class name of most derived type of this object.
-
inline PxType getConcreteType() const
Returns concrete type of object.
See also
PxConcreteType
- Returns
PxConcreteType::Enum of serialized object
-
inline void setBaseFlag(PxBaseFlag::Enum flag, bool value)
Set PxBaseFlag
- Parameters
flag – [in] The flag to be set
value – [in] The flags new value
-
inline void setBaseFlags(PxBaseFlags inFlags)
Set PxBaseFlags
See also
PxBaseFlags
- Parameters
inFlags – [in] The flags to be set
-
inline PxBaseFlags getBaseFlags() const
Returns PxBaseFlags.
See also
PxBaseFlags
- Returns
PxBaseFlags
-
inline virtual bool isReleasable() const
Whether the object is subordinate.
A class is subordinate, if it can only be instantiated in the context of another class.
See also
PxSerialization::isSerializable
- Returns
Whether the class is subordinate
Public Members
-
void *userData
user can assign this to whatever, usually to create a 1:1 relationship with a user object.
Protected Functions
-
inline PxArticulationReducedCoordinate(PxType concreteType, PxBaseFlags baseFlags)
-
inline PxArticulationReducedCoordinate(PxBaseFlags baseFlags)
-
inline virtual bool isKindOf(const char *superClass) const
Returns whether a given type name matches with the type of this instance.
-
template<class T>
inline bool typeMatch() const
-
virtual PxScene *getScene() const = 0