pxmlw6n2f/Gazebo_Distributed_MPI/gazebo/math/Spline.hh

137 lines
5.0 KiB
C++

/*
* Copyright (C) 2012 Open Source Robotics Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
// Note: Originally cribbed from Ogre3d. Modified to implement Cardinal
// spline and catmull-rom spline
#ifndef _SPLINE_HH_
#define _SPLINE_HH_
#include <vector>
#include "gazebo/math/Vector3.hh"
#include "gazebo/math/Matrix4.hh"
#include "gazebo/util/system.hh"
namespace gazebo
{
namespace math
{
/// \addtogroup gazebo_math
/// \{
/// \class Spline Spline.hh math/gzmath.hh
/// \brief Splines
class GZ_MATH_VISIBLE Spline
{
/// \brief constructor
public: Spline();
/// \brief destructor
public: ~Spline();
/// \brief Set the tension parameter. A value of 0 = Catmull-Rom
/// spline.
/// \param[in] _t Tension value between 0.0 and 1.0
public: void SetTension(double _t);
/// \brief Get the tension value
/// \return The value of the tension, which is between 0.0 and 1.0
public: double GetTension() const;
/// \brief Adds a control point to the end of the spline.
/// \param[in] _pt point to add
public: void AddPoint(const Vector3 &_pt);
/// \brief Gets the detail of one of the control points of the spline.
/// \param[in] _index the control point index
/// \return the control point, or [0,0,0] and a message on the error
/// stream
public: Vector3 GetPoint(unsigned int _index) const;
/// \brief Gets the number of control points in the spline.
/// \return the count
public: unsigned int GetPointCount() const;
/// \brief Get the tangent value for a point
/// \param[in] _index the control point index
public: Vector3 GetTangent(unsigned int _index) const;
/// \brief Clears all the points in the spline.
public: void Clear();
/// \brief Updates a single point in the spline.
/// \remarks an error to the error stream is printed when the index is
/// out of bounds
/// \param[in] _index the control point index
/// \param[in] _value the new position
public: void UpdatePoint(unsigned int _index, const Vector3 &_value);
/// \brief Returns an interpolated point based on a parametric value
/// over the whole series.
/// \param[in] _t parameter (range 0 to 1)
public: Vector3 Interpolate(double _t) const;
/// \brief Interpolates a single segment of the spline given a
/// parametric value.
/// \param[in] _fromIndex The point index to treat as t = 0.
/// fromIndex + 1 is deemed to be t = 1
/// \param[in] _t Parametric value
public: Vector3 Interpolate(unsigned int _fromIndex, double _t) const;
/// \brief Tells the spline whether it should automatically
/// calculate tangents on demand as points are added.
/// \remarks The spline calculates tangents at each point
/// automatically based on the input points. Normally it
/// does this every time a point changes. However, if you
/// have a lot of points to add in one go, you probably
/// don't want to incur this overhead and would prefer to
/// defer the calculation until you are finished setting all
/// the points. You can do this by calling this method with a
/// parameter of 'false'. Just remember to manually call the
/// recalcTangents method when you are done.
/// \param[in] _autoCalc If true, tangents are calculated for you whenever
/// a point changes. If false, you must call reclacTangents to
/// recalculate them when it best suits.
public: void SetAutoCalculate(bool _autoCalc);
/// \brief Recalculates the tangents associated with this spline.
/// \remarks If you tell the spline not to update on demand by
/// calling setAutoCalculate(false) then you must call this
/// after completing your updates to the spline points.
public: void RecalcTangents();
/// \brief when true, the tangents are recalculated when the control
/// point change
protected: bool autoCalc;
/// \brief control points
protected: std::vector<Vector3> points;
/// \brief tangents
protected: std::vector<Vector3> tangents;
/// Matrix of coefficients
protected: Matrix4 coeffs;
/// Tension of 0 = Catmull-Rom spline, otherwise a Cardinal spline
protected: double tension;
};
/// \}
}
}
#endif