tf_eigen.cpp

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// Author: Adam Leeper, Stuart Glaser

#include "tf_conversions/tf_eigen.h"

namespace tf {

  void matrixTFToEigen(const tf::Matrix3x3 &t, Eigen::Matrix3d &e)
  {
    for(int i=0; i<3; i++)
      for(int j=0; j<3; j++)
        e(i,j) = t[i][j];
  }
  
  void matrixEigenToTF(const Eigen::Matrix3d &e, tf::Matrix3x3 &t)
  {
    for(int i=0; i<3; i++)
      for(int j=0; j<3; j++)
        t[i][j] =  e(i,j);
  }

  void poseTFToEigen(const tf::Pose &t, Eigen::Affine3d &e)
  {
    transformTFToEigen(t, e);
  }

  void poseEigenToTF(const Eigen::Affine3d &e, tf::Pose &t)
  {
    transformEigenToTF(e, t);
  }

  void quaternionTFToEigen(const tf::Quaternion& t, Eigen::Quaterniond& e)
  {
    e = Eigen::Quaterniond(t[3],t[0],t[1],t[2]);
  }
  
  void quaternionEigenToTF(const Eigen::Quaterniond& e, tf::Quaternion& t)
  {
    t[0] = e.x();
    t[1] = e.y();
    t[2] = e.z();
    t[3] = e.w();
  }

  void transformTFToEigen(const tf::Transform &t, Eigen::Affine3d &e)
  {
    for(int i=0; i<3; i++)
    {
      e.matrix()(i,3) = t.getOrigin()[i];
      for(int j=0; j<3; j++)
      {
        e.matrix()(i,j) = t.getBasis()[i][j];
      }
    }
    // Fill in identity in last row
    for (int col = 0 ; col < 3; col ++)
      e.matrix()(3, col) = 0;
    e.matrix()(3,3) = 1;
  };

  void transformEigenToTF(const Eigen::Affine3d &e, tf::Transform &t)
  {
    t.setOrigin(tf::Vector3( e.matrix()(0,3), e.matrix()(1,3), e.matrix()(2,3)));
    t.setBasis(tf::Matrix3x3(e.matrix()(0,0), e.matrix()(0,1),e.matrix()(0,2),
                             e.matrix()(1,0), e.matrix()(1,1),e.matrix()(1,2),
                             e.matrix()(2,0), e.matrix()(2,1),e.matrix()(2,2)));
  }
  
  void vectorTFToEigen(const tf::Vector3& t, Eigen::Vector3d& e)
  {
    e(0) = t[0];
    e(1) = t[1];
    e(2) = t[2];
  }

  void vectorEigenToTF(const Eigen::Vector3d& e, tf::Vector3& t)
  {
    t[0] = e(0);
    t[1] = e(1);
    t[2] = e(2);
  }

} // namespace tf