Package org.robwork.sdurw_invkin

Class IterativeIKCPtr

java.lang.Object

org.robwork.sdurw_invkin.IterativeIKCPtr

public class IterativeIKCPtr
extends java.lang.Object

Ptr stores a pointer and optionally takes ownership of the value.

Constructor Summary

Constructors

Constructor	Description
IterativeIKCPtr()	Default constructor yielding a NULL-pointer.
IterativeIKCPtr(long cPtr, boolean cMemoryOwn)
IterativeIKCPtr(IterativeIK ptr)	Do not take ownership of ptr. ptr can be null. The constructor is implicit on purpose.

Method Summary

Modifier and Type	Method	Description
IterativeIK	__ref__()	Dereferencing operator.
void	delete()
IterativeIK	deref()	The pointer stored in the object.
boolean	equals(IterativeIK p)
static long	getCPtr(IterativeIKCPtr obj)
IterativeIK	getDeref()	Member access operator.
double	getMaxError()	Returns the maximal error for a solution
int	getMaxIterations()	Returns the maximal number of iterations
FrameCPtr	getTCP()	Returns the Tool Center Point (TCP) used when solving the IK problem.
boolean	isNull()	checks if the pointer is null
boolean	isShared()	check if this Ptr has shared ownership or none ownership
VectorQ	solve(Transform3D baseTend, State state)	Calculates the inverse kinematics Given a desired \robabx{}{desired}{\mathbf{T}} and the current state, the method solves the inverse kinematics problem. If the algorithm is able to identify multiple solutions (e.g.

Methods inherited from class java.lang.Object

equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

IterativeIKCPtr

public IterativeIKCPtr(long cPtr,
                       boolean cMemoryOwn)

IterativeIKCPtr

public IterativeIKCPtr()

Default constructor yielding a NULL-pointer.

IterativeIKCPtr

public IterativeIKCPtr(IterativeIK ptr)

Do not take ownership of ptr.

ptr can be null.

The constructor is implicit on purpose.

Method Detail

getCPtr

public static long getCPtr(IterativeIKCPtr obj)

delete

public void delete()

deref

public IterativeIK deref()

The pointer stored in the object.

__ref__

public IterativeIK __ref__()

Dereferencing operator.

getDeref

public IterativeIK getDeref()

Member access operator.

equals

public boolean equals(IterativeIK p)

isShared

public boolean isShared()

check if this Ptr has shared ownership or none
ownership

Returns:

true if Ptr has shared ownership, false if it has no ownership.

isNull

public boolean isNull()

checks if the pointer is null

Returns:

Returns true if the pointer is null

getMaxError

public double getMaxError()

Returns the maximal error for a solution

Returns:

Maximal error

getMaxIterations

public int getMaxIterations()

Returns the maximal number of iterations

solve

public VectorQ solve(Transform3D baseTend,
                     State state)

Calculates the inverse kinematics

Given a desired \robabx{}{desired}{\mathbf{T}}
and the current state, the method solves the inverse kinematics
problem.

If the algorithm is able to identify multiple solutions (e.g. elbow
up and down) it will return all of these. Before returning a solution,
they may be checked to be within the bounds of the configuration space.
(See setCheckJointLimits(bool) )

Parameters:

baseTend - [in] Desired base to end transformation \robabx{}{desired}{\mathbf{T}}

state - [in] State of the device from which to start the
iterations

Returns:

List of solutions. Notice that the list may be empty.

Note: The targets baseTend must be defined relative to the base of the
robot/device.

getTCP

public FrameCPtr getTCP()

Returns the Tool Center Point (TCP) used when solving the IK problem.

Returns:

The TCP Frame used when solving the IK.