blender/intern/itasc/kdl/jntarray.hpp

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// Copyright (C) 2007 Ruben Smits <ruben dot smits at mech dot kuleuven dot be>
// Version: 1.0
// Author: Ruben Smits <ruben dot smits at mech dot kuleuven dot be>
// Maintainer: Ruben Smits <ruben dot smits at mech dot kuleuven dot be>
// URL: http://www.orocos.org/kdl
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
#ifndef KDL_JNTARRAY_HPP
#define KDL_JNTARRAY_HPP
#include "frames.hpp"
#include "jacobian.hpp"
namespace KDL
{
/**
* @brief This class represents an fixed size array containing
* joint values of a KDL::Chain.
*
* \warning An object constructed with the default constructor provides
* a valid, but inert, object. Many of the member functions will do
* the correct thing and have no affect on this object, but some
* member functions can _NOT_ deal with an inert/empty object. These
* functions will assert() and exit the program instead. The intended use
* case for the default constructor (in an RTT/OCL setting) is outlined in
* code below - the default constructor plus the resize() function allow
* use of JntArray objects whose size is set within a configureHook() call
* (typically based on a size determined from a property).
\code
class MyTask : public RTT::TaskContext
{
JntArray j;
MyTask()
{} // invokes j's default constructor
bool configureHook()
{
unsigned int size = some_property.rvalue();
j.resize(size)
...
}
void updateHook()
{
** use j here
}
};
2011-02-25 11:45:16 +00:00
\endcode
*/
class JntArray
{
private:
unsigned int size;
double* data;
public:
/** Construct with _no_ data array
* @post NULL == data
* @post 0 == rows()
* @warning use of an object constructed like this, without
* a resize() first, may result in program exit! See class
* documentation.
*/
JntArray();
/**
* Constructor of the joint array
*
* @param size size of the array, this cannot be changed
* afterwards.
* @pre 0 < size
* @post NULL != data
* @post 0 < rows()
* @post all elements in data have 0 value
*/
JntArray(unsigned int size);
/** Copy constructor
* @note Will correctly copy an empty object
*/
JntArray(const JntArray& arg);
~JntArray();
/** Resize the array
* @warning This causes a dynamic allocation (and potentially
* also a dynamic deallocation). This _will_ negatively affect
* real-time performance!
*
* @post newSize == rows()
* @post NULL != data
* @post all elements in data have 0 value
*/
void resize(unsigned int newSize);
JntArray& operator = ( const JntArray& arg);
/**
* get_item operator for the joint array
*
*
* @return the joint value at position i, starting from 0
* @pre 0 != size (ie non-default constructor or resize() called)
*/
double operator[](unsigned int i) const;
/**
* set_item operator
*
* @return reference to the joint value at position i,starting
*from zero.
* @pre 0 != size (ie non-default constructor or resize() called)
*/
double& operator[](unsigned int i);
/**
* access operator for the joint array. Use pointer here to allow
* access to sequential joint angles (required for ndof joints)
*
*
* @return the joint value at position i, NULL if i is outside the valid range
*/
double* operator()(unsigned int i);
/**
* Returns the number of rows (size) of the array
*
*/
unsigned int rows()const;
/**
* Returns the number of columns of the array, always 1.
*/
unsigned int columns()const;
/**
* Function to add two joint arrays, all the arguments must
* have the same size: A + B = C. This function is
* aliasing-safe, A or B can be the same array as C.
*
* @param src1 A
* @param src2 B
* @param dest C
*/
friend void Add(const JntArray& src1,const JntArray& src2,JntArray& dest);
/**
* Function to subtract two joint arrays, all the arguments must
* have the same size: A - B = C. This function is
* aliasing-safe, A or B can be the same array as C.
*
* @param src1 A
* @param src2 B
* @param dest C
*/
friend void Subtract(const JntArray& src1,const JntArray& src2,JntArray& dest);
/**
* Function to multiply all the array values with a scalar
* factor: A*b=C. This function is aliasing-safe, A can be the
* same array as C.
*
* @param src A
* @param factor b
* @param dest C
*/
friend void Multiply(const JntArray& src,const double& factor,JntArray& dest);
/**
* Function to divide all the array values with a scalar
* factor: A/b=C. This function is aliasing-safe, A can be the
* same array as C.
*
* @param src A
* @param factor b
* @param dest C
*/
friend void Divide(const JntArray& src,const double& factor,JntArray& dest);
/**
* Function to multiply a KDL::Jacobian with a KDL::JntArray
* to get a KDL::Twist, it should not be used to calculate the
* forward velocity kinematics, the solver classes are built
* for this purpose.
* J*q = t
*
* @param jac J
* @param src q
* @param dest t
* @post dest==Twist::Zero() if 0==src.rows() (ie src is empty)
*/
friend void MultiplyJacobian(const Jacobian& jac, const JntArray& src, Twist& dest);
/**
* Function to set all the values of the array to 0
*
* @param array
*/
friend void SetToZero(JntArray& array);
/**
* Function to check if two arrays are the same with a
*precision of eps
*
* @param src1
* @param src2
* @param eps default: epsilon
* @return true if each element of src1 is within eps of the same
* element in src2, or if both src1 and src2 have no data (ie 0==rows())
*/
friend bool Equal(const JntArray& src1,const JntArray& src2,double eps=epsilon);
friend bool operator==(const JntArray& src1,const JntArray& src2);
//friend bool operator!=(const JntArray& src1,const JntArray& src2);
};
bool operator==(const JntArray& src1,const JntArray& src2);
//bool operator!=(const JntArray& src1,const JntArray& src2);
}
#endif