DistanceField is an abstract base class for computing distances from sets of 3D obstacle points. The distance assigned to a freespace cell should be the distance to the closest obstacle cell. Cells that are obstacle cells should either be marked as zero distance, or may have a negative distance if a signed version of the distance field is being used and an obstacle point is internal to an obstacle volume. More...
#include <distance_field.h>
Public Member Functions  
void  addOcTreeToField (const octomap::OcTree *octree) 
Adds an octree to the distance field. Cells that are occupied in the octree that lie within the voxel grid are added to the distance field. The octree can represent either a larger or smaller volume than the distance field. If the resolution of the octree is less than or equal to the resolution of the distance field then the center of each leaf cell of the octree will be added to the distance field. If the resolution of the octree is greater than a 3D volume of the correct resolution will be added for each occupied leaf node. More...  
virtual void  addPointsToField (const EigenSTL::vector_Vector3d &points)=0 
Add a set of obstacle points to the distance field, updating distance values accordingly. The distance field may already contain obstacle cells. More...  
void  addShapeToField (const shapes::Shape *shape, const Eigen::Affine3d &pose) 
Adds the set of points corresponding to the shape at the given pose as obstacle points into the distance field. If the shape is an OcTree, the pose information is ignored and the OcTree is passed to the addOcTreeToField function. More...  
MOVEIT_DEPRECATED void  addShapeToField (const shapes::Shape *shape, const geometry_msgs::Pose &pose) 
DistanceField (double size_x, double size_y, double size_z, double resolution, double origin_x, double origin_y, double origin_z)  
Constructor, where units are arbitrary but are assumed to be meters. More...  
virtual double  getDistance (double x, double y, double z) const =0 
Gets the distance to the closest obstacle at the given location. The particulars of this function are heavily dependent on the behavior of the derived class. More...  
virtual double  getDistance (int x, int y, int z) const =0 
Gets the distance to the closest obstacle at the given integer cell location. The particulars of this function are heavily dependent on the behavior of the derived class. More...  
double  getDistanceGradient (double x, double y, double z, double &gradient_x, double &gradient_y, double &gradient_z, bool &in_bounds) const 
Gets not only the distance to the nearest cell but the gradient direction. The gradient is computed as a function of the distances of nearby cells. An uninitialized distance is returned if the cell is not valid for gradient production purposes. The gradient is pointing out of the obstacle  thus to recover the closest obstacle point, the normalized gradient value is multiplied by the distance and subtracted from the cell's location, as shown below. More...  
void  getGradientMarkers (double min_radius, double max_radius, const std::string &frame_id, const ros::Time &stamp, visualization_msgs::MarkerArray &marker_array) const 
Populates the supplied marker array with a series of arrows representing gradients of cells that are within the supplied range in terms of distance. The markers will be visualization_msgs::Marker::ARROW in the namespace "distance_field_gradient". More...  
void  getIsoSurfaceMarkers (double min_distance, double max_distance, const std::string &frame_id, const ros::Time stamp, visualization_msgs::Marker &marker) const 
Get an isosurface for visualization in rviz. The isosurface shows every cell that has a distance in a given range in the distance field. The cells are added as a visualization_msgs::Marker::CUBE_LIST in the namespace "distance_field". More...  
double  getOriginX () const 
Gets the origin (minimum value) along the X dimension. More...  
double  getOriginY () const 
Gets the origin (minimum value) along the Y dimension. More...  
double  getOriginZ () const 
Gets the origin (minimum value) along the Z dimension. More...  
void  getPlaneMarkers (PlaneVisualizationType type, double length, double width, double height, const Eigen::Vector3d &origin, const std::string &frame_id, const ros::Time stamp, visualization_msgs::Marker &marker) const 
Populates a marker with a slice of the distance field in a particular plane. All cells in the plane will be added to the field, with colors associated with their distance. More...  
void  getProjectionPlanes (const std::string &frame_id, const ros::Time &stamp, double max_distance, visualization_msgs::Marker &marker) const 
A function that populates the marker with three planes  one each along the XY, XZ, and YZ axes. For each of the planes, any column on that plane will be marked according to the minimum distance along that column. More...  
double  getResolution () const 
Gets the resolution of the distance field in meters. More...  
bool  getShapePoints (const shapes::Shape *shape, const Eigen::Affine3d &pose, EigenSTL::vector_Vector3d *points) 
Get the points associated with a shape. This is mainly used when the external application needs to cache points. More...  
double  getSizeX () const 
Gets the distance field size along the X dimension in meters. More...  
double  getSizeY () const 
Gets the distance field size along the Y dimension in meters. More...  
double  getSizeZ () const 
Gets the distance field size along the Z dimension in meters. More...  
virtual double  getUninitializedDistance () const =0 
Gets a distance value for an invalid cell. More...  
virtual int  getXNumCells () const =0 
Gets the number of cells along the X axis. More...  
virtual int  getYNumCells () const =0 
Gets the number of cells along the Y axis. More...  
virtual int  getZNumCells () const =0 
Gets the number of cells along the Z axis. More...  
virtual bool  gridToWorld (int x, int y, int z, double &world_x, double &world_y, double &world_z) const =0 
Converts from an set of integer indices to a world location given the origin and resolution parameters. More...  
virtual bool  isCellValid (int x, int y, int z) const =0 
Determines whether or not the cell associated with the supplied indices is valid for this distance field. More...  
void  moveShapeInField (const shapes::Shape *shape, const Eigen::Affine3d &old_pose, const Eigen::Affine3d &new_pose) 
Moves the shape in the distance field from the old pose to the new pose, removing points that are no longer obstacle points, and adding points that are now obstacle points at the new pose. This function will discretize both shapes, and call the updatePointsInField function on the old and new point sets. More...  
MOVEIT_DEPRECATED void  moveShapeInField (const shapes::Shape *shape, const geometry_msgs::Pose &old_pose, const geometry_msgs::Pose &new_pose) 
virtual bool  readFromStream (std::istream &stream)=0 
Reads, parameterizes, and populates the distance field based on the supplied stream. More...  
virtual void  removePointsFromField (const EigenSTL::vector_Vector3d &points)=0 
Remove a set of obstacle points from the distance field, updating distance values accordingly. More...  
void  removeShapeFromField (const shapes::Shape *shape, const Eigen::Affine3d &pose) 
All points corresponding to the shape are removed from the distance field. More...  
MOVEIT_DEPRECATED void  removeShapeFromField (const shapes::Shape *shape, const geometry_msgs::Pose &pose) 
virtual void  reset ()=0 
Resets all points in the distance field to an uninitialize value. More...  
virtual void  updatePointsInField (const EigenSTL::vector_Vector3d &old_points, const EigenSTL::vector_Vector3d &new_points)=0 
This function will remove any obstacle points that are in the old point set but not the new point set, and add any obstacle points that are in the new block set but not the old block set. Any points that are in both sets are left unchanged. More...  
virtual bool  worldToGrid (double world_x, double world_y, double world_z, int &x, int &y, int &z) const =0 
Converts from a world location to a set of integer indices. Should return false if the world location is not valid in the distance field, and should populate the index values in either case. More...  
virtual bool  writeToStream (std::ostream &stream) const =0 
Writes the contents of the distance field to the supplied stream. More...  
virtual  ~DistanceField () 
Protected Member Functions  
void  getOcTreePoints (const octomap::OcTree *octree, EigenSTL::vector_Vector3d *points) 
Get the points associated with an octree. More...  
void  setPoint (int xCell, int yCell, int zCell, double dist, geometry_msgs::Point &point, std_msgs::ColorRGBA &color, double max_distance) const 
Helper function that sets the point value and color given the distance. More...  
Protected Attributes  
int  inv_twice_resolution_ 
Computed value 1.0/(2.0*resolution_) More...  
double  origin_x_ 
X origin of the distance field. More...  
double  origin_y_ 
Y origin of the distance field. More...  
double  origin_z_ 
Z origin of the distance field. More...  
double  resolution_ 
Resolution of the distance field. More...  
double  size_x_ 
X size of the distance field. More...  
double  size_y_ 
Y size of the distance field. More...  
double  size_z_ 
Z size of the distance field. More...  
DistanceField is an abstract base class for computing distances from sets of 3D obstacle points. The distance assigned to a freespace cell should be the distance to the closest obstacle cell. Cells that are obstacle cells should either be marked as zero distance, or may have a negative distance if a signed version of the distance field is being used and an obstacle point is internal to an obstacle volume.
Inherited classes must contain methods for holding a dense set of 3D voxels as well as methods for computing the required distances. The distance field parent class doesn't hold the data or have any way to generate distances from that data.
Definition at line 95 of file distance_field.h.
distance_field::DistanceField::DistanceField  (  double  size_x, 
double  size_y,  
double  size_z,  
double  resolution,  
double  origin_x,  
double  origin_y,  
double  origin_z  
) 
Constructor, where units are arbitrary but are assumed to be meters.
[in]  size_x  The X dimension in meters of the volume to represent 
[in]  size_y  The Y dimension in meters of the volume to represent 
[in]  size_z  The Z dimension in meters of the volume to represent 
[in]  resolution  The resolution in meters of the volume 
[in]  origin_x  The minimum X point of the volume 
[in]  origin_y  The minimum Y point of the volume 
[in]  origin_z  The minimum Z point of the volume 
Definition at line 45 of file distance_field.cpp.

virtual 
Definition at line 58 of file distance_field.cpp.
void distance_field::DistanceField::addOcTreeToField  (  const octomap::OcTree *  octree  ) 
Adds an octree to the distance field. Cells that are occupied in the octree that lie within the voxel grid are added to the distance field. The octree can represent either a larger or smaller volume than the distance field. If the resolution of the octree is less than or equal to the resolution of the distance field then the center of each leaf cell of the octree will be added to the distance field. If the resolution of the octree is greater than a 3D volume of the correct resolution will be added for each occupied leaf node.
[in]  octree  The octree to add to the distance field 
Definition at line 282 of file distance_field.cpp.

pure virtual 
Add a set of obstacle points to the distance field, updating distance values accordingly. The distance field may already contain obstacle cells.
[in]  points  The set of obstacle points to add 
Implemented in distance_field::PropagationDistanceField.
void distance_field::DistanceField::addShapeToField  (  const shapes::Shape *  shape, 
const Eigen::Affine3d &  pose  
) 
Adds the set of points corresponding to the shape at the given pose as obstacle points into the distance field. If the shape is an OcTree, the pose information is ignored and the OcTree is passed to the addOcTreeToField function.
This function uses the Body class in the geometric_shapes package to determine the set of obstacle points, with the exception of OcTrees as mentioned. A bounding sphere is computed given the shape; the bounding sphere is iterated through in 3D at the resolution of the distance_field, with each point tested for point inclusion. For more information about the behavior of bodies and poses please see the documentation for geometric_shapes.
[in]  shape  The shape to add to the distance field 
[in]  pose  The pose of the shape 
Definition at line 221 of file distance_field.cpp.
void distance_field::DistanceField::addShapeToField  (  const shapes::Shape *  shape, 
const geometry_msgs::Pose &  pose  
) 
Definition at line 229 of file distance_field.cpp.

pure virtual 
Gets the distance to the closest obstacle at the given location. The particulars of this function are heavily dependent on the behavior of the derived class.
The particular implementation may return a max distance value if a cell is far away from all obstacles. Values of 0.0 should represent that a cell is an obstacle, and some implementations may return a signed value representing distance to the surface when a cell is deep inside an obstacle volume. An implementation may also return some value to represent when a location is outside the represented volume.
[in]  x  The cell's X value 
[in]  y  The cell's Y value 
[in]  z  The cell's Z value 
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Gets the distance to the closest obstacle at the given integer cell location. The particulars of this function are heavily dependent on the behavior of the derived class.
[in]  x  The X index of the cell 
[in]  y  The Y index of the cell 
[in]  z  The Z index of the cell 
Implemented in distance_field::PropagationDistanceField.
double distance_field::DistanceField::getDistanceGradient  (  double  x, 
double  y,  
double  z,  
double &  gradient_x,  
double &  gradient_y,  
double &  gradient_z,  
bool &  in_bounds  
)  const 
Gets not only the distance to the nearest cell but the gradient direction. The gradient is computed as a function of the distances of nearby cells. An uninitialized distance is returned if the cell is not valid for gradient production purposes. The gradient is pointing out of the obstacle  thus to recover the closest obstacle point, the normalized gradient value is multiplied by the distance and subtracted from the cell's location, as shown below.
A number of different cells will not have valid gradients. Any cell that is entirely surrounded by cells of the same distance will not have a valid gradient. Depending on the implementation of the distance field, such cells may be found far away from obstacles (if a distance is not computed for every cell), or deep within obstacles. Such points can be detected as having zero magnitude for the gradient.
The closest cell to a given cell can be computed given the following formulation (this value will only be within the resolution parameter of the correct location), including a test for a nonzero gradient magnitude:
[in]  x  The X location of the cell 
[in]  y  The X location of the cell 
[in]  z  The X location of the cell 
[out]  gradient_x  The X component of the gradient to the closest occupied cell 
[out]  gradient_y  The Y component of the gradient to the closest occupied cell 
[out]  gradient_z  The Z component of the gradient to the closest occupied cell 
[out]  in_bounds  Whether or not the (x,y,z) is valid for gradient purposes. Gradients are not valid at the boundary of the distance field (cells where one or more of the indexes are at 0 or at the maximum size). 
Definition at line 62 of file distance_field.cpp.
void distance_field::DistanceField::getGradientMarkers  (  double  min_radius, 
double  max_radius,  
const std::string &  frame_id,  
const ros::Time &  stamp,  
visualization_msgs::MarkerArray &  marker_array  
)  const 
Populates the supplied marker array with a series of arrows representing gradients of cells that are within the supplied range in terms of distance. The markers will be visualization_msgs::Marker::ARROW in the namespace "distance_field_gradient".
[in]  min_distance  Cells of less than this distance will not be added to the marker 
[in]  max_distance  Cells of greater than this distance will not be added to the marker 
[in]  frame_id  The frame to use as the header in the marker 
[in]  stamp  The stamp to use in the header of the marker 
[out]  marker_array  The marker array to populate 
Definition at line 133 of file distance_field.cpp.
void distance_field::DistanceField::getIsoSurfaceMarkers  (  double  min_distance, 
double  max_distance,  
const std::string &  frame_id,  
const ros::Time  stamp,  
visualization_msgs::Marker &  marker  
)  const 
Get an isosurface for visualization in rviz. The isosurface shows every cell that has a distance in a given range in the distance field. The cells are added as a visualization_msgs::Marker::CUBE_LIST in the namespace "distance_field".
[in]  min_distance  Cells of less than this distance will not be added to the marker 
[in]  max_distance  Cells of greater than this distance will not be added to the marker 
[in]  frame_id  The frame to use as the header in the marker 
[in]  stamp  The stamp to use in the header of the marker 
[out]  marker  The marker that will contain the indicated cells. 
Definition at line 88 of file distance_field.cpp.

protected 
Get the points associated with an octree.
[in]  octree  The octree to find points for. 
[out]  points  The points determined for this octree. 
Definition at line 236 of file distance_field.cpp.

inline 
Gets the origin (minimum value) along the X dimension.
Definition at line 546 of file distance_field.h.

inline 
Gets the origin (minimum value) along the Y dimension.
Definition at line 557 of file distance_field.h.

inline 
Gets the origin (minimum value) along the Z dimension.
Definition at line 568 of file distance_field.h.
void distance_field::DistanceField::getPlaneMarkers  (  distance_field::PlaneVisualizationType  type, 
double  length,  
double  width,  
double  height,  
const Eigen::Vector3d &  origin,  
const std::string &  frame_id,  
const ros::Time  stamp,  
visualization_msgs::Marker &  marker  
)  const 
Populates a marker with a slice of the distance field in a particular plane. All cells in the plane will be added to the field, with colors associated with their distance.
[in]  type  Which plane to show in the marker 
[in]  length  The length of the plane to show. If the type is XZ or XY, it's interpreted as the dimension along the X axis. If the type is YZ, it's interpreted along the Y axis. 
[in]  width  The width of the plane to show. If the type is XZ or YZ, it's interpreted along the Z axis. If the type is XY, it's interpreted along the Y axis. 
[in]  height  The height of the plane to show. If the type is XY, it's interpreted along the Z axis. If the type is XZ, it's interpreted along the Y axis. If the type is YZ, it's interpeted along the X axis. 
[in]  origin  The minimum point along each axis to display 
[in]  frame_id  The frame to use as the header in the marker 
[in]  stamp  The stamp to use in the header of the marker 
[out]  marker  The marker that will contain the indicated cells. 
Definition at line 336 of file distance_field.cpp.
void distance_field::DistanceField::getProjectionPlanes  (  const std::string &  frame_id, 
const ros::Time &  stamp,  
double  max_distance,  
visualization_msgs::Marker &  marker  
)  const 
A function that populates the marker with three planes  one each along the XY, XZ, and YZ axes. For each of the planes, any column on that plane will be marked according to the minimum distance along that column.
[in]  frame_id  The frame to use as the header in the marker 
[in]  stamp  The stamp to use in the header of the marker 
[in]  max_distance  A max distance for color calculation. Distances of this value or greater will show up as fully white in the marker. 
[out]  marker  The marker, which will be populated with a visualization_msgs::Marker::CUBE_LIST . 
Definition at line 463 of file distance_field.cpp.

inline 
Gets the resolution of the distance field in meters.
Definition at line 579 of file distance_field.h.
bool distance_field::DistanceField::getShapePoints  (  const shapes::Shape *  shape, 
const Eigen::Affine3d &  pose,  
EigenSTL::vector_Vector3d *  points  
) 
Get the points associated with a shape. This is mainly used when the external application needs to cache points.
[in]  shape  The shape to find points for. 
[in]  pose  The pose of the shape. 
[out]  points  The points determined for this shape. 
Definition at line 198 of file distance_field.cpp.

inline 
Gets the distance field size along the X dimension in meters.
Definition at line 513 of file distance_field.h.

inline 
Gets the distance field size along the Y dimension in meters.
Definition at line 524 of file distance_field.h.

inline 
Gets the distance field size along the Z dimension in meters.
Definition at line 535 of file distance_field.h.

pure virtual 
Gets a distance value for an invalid cell.
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Gets the number of cells along the X axis.
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Gets the number of cells along the Y axis.
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Gets the number of cells along the Z axis.
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Converts from an set of integer indices to a world location given the origin and resolution parameters.
[in]  x  The integer X location 
[in]  y  The integer Y location 
[in]  z  The integer Z location 
[out]  world_x  The computed world X location 
[out]  world_y  The computed world X location 
[out]  world_z  The computed world X location 
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Determines whether or not the cell associated with the supplied indices is valid for this distance field.
[in]  x  The X index of the cell 
[in]  y  The Y index of the cell 
[in]  z  The Z index of the cell 
Implemented in distance_field::PropagationDistanceField.
void distance_field::DistanceField::moveShapeInField  (  const shapes::Shape *  shape, 
const Eigen::Affine3d &  old_pose,  
const Eigen::Affine3d &  new_pose  
) 
Moves the shape in the distance field from the old pose to the new pose, removing points that are no longer obstacle points, and adding points that are now obstacle points at the new pose. This function will discretize both shapes, and call the updatePointsInField function on the old and new point sets.
It's important to note that this function has no semantic understanding of an object  this function may be called even if addShapeToField was not previously called. Furthermore, points will be removed even if they have been added by multiple different sources  a cup resting on a table that is moved make take a chunk out of the top of the table.
[in]  shape  The shape to move in the distance field 
[in]  old_pose  The old pose of the shape 
[in]  new_pose  The new pose of the shape 
Definition at line 289 of file distance_field.cpp.
void distance_field::DistanceField::moveShapeInField  (  const shapes::Shape *  shape, 
const geometry_msgs::Pose &  old_pose,  
const geometry_msgs::Pose &  new_pose  
) 
Definition at line 309 of file distance_field.cpp.

pure virtual 
Reads, parameterizes, and populates the distance field based on the supplied stream.
[in]  stream  The stream from which to read 
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Remove a set of obstacle points from the distance field, updating distance values accordingly.
This function will invalidate the distance measurements associated with the obstacle points and recompute them. Depending on the implementation of the derived class and the proportion of the total occupied points being removed, it may be more efficient to use the reset() function and add the remaining obstacle points to the grid again.
[in]  points  The set of obstacle points that will be set as free 
Implemented in distance_field::PropagationDistanceField.
void distance_field::DistanceField::removeShapeFromField  (  const shapes::Shape *  shape, 
const Eigen::Affine3d &  pose  
) 
All points corresponding to the shape are removed from the distance field.
The points needs not have been added using addShapeToField.
[in]  shape  The shape to remove from the distance field 
[in]  pose  The pose of the shape to remove 
Definition at line 318 of file distance_field.cpp.
void distance_field::DistanceField::removeShapeFromField  (  const shapes::Shape *  shape, 
const geometry_msgs::Pose &  pose  
) 
Definition at line 329 of file distance_field.cpp.

pure virtual 
Resets all points in the distance field to an uninitialize value.
Implemented in distance_field::PropagationDistanceField.

protected 
Helper function that sets the point value and color given the distance.
[in]  xCell  The x index of the cell 
[in]  yCell  The y index of the cell 
[in]  zCell  The z index of the cell 
[in]  dist  The distance of the cell 
[out]  point  World coordinates will be placed here 
[out]  color  A color will be assigned here that's only red if the distance is 0, and gets progressively whiter as the dist value approaches max_distance. 
[in]  max_distance  The distance past which all cells will be fully white 
Definition at line 448 of file distance_field.cpp.

pure virtual 
This function will remove any obstacle points that are in the old point set but not the new point set, and add any obstacle points that are in the new block set but not the old block set. Any points that are in both sets are left unchanged.
The primary use case for this function is in moving objects  calculating the set of points associated with an object, moving the object in space, and calculating the new set of points. If the object has moved substantially, such that the old object position does not overlap with the new object position, then it may be more efficient to call removePointsFromField on the old points and addPointsToField on the new points. If the object has moved only slighly, however, this function may offer a speed improvement. All points in the old_points set should have been previously added to the field in order for this function to act as intended  points that are in both the old_points set and the new_points set will not be added to the field, as they are assumed to already be obstacle points.
[in]  old_points  The set of points that all should be obstacle cells in the distance field 
[in]  new_points  The set of points, all of which are intended to be obstacle points in the distance field 
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Converts from a world location to a set of integer indices. Should return false if the world location is not valid in the distance field, and should populate the index values in either case.
[in]  world_x  The world X location 
[in]  world_y  The world Y location 
[in]  world_z  The world Z location 
[out]  x  The computed integer X location 
[out]  y  The computed integer X location 
[out]  z  The computed integer X location 
Implemented in distance_field::PropagationDistanceField.

pure virtual 
Writes the contents of the distance field to the supplied stream.
[out]  stream  The stream to which to write the distance field contents. 
Implemented in distance_field::PropagationDistanceField.

protected 
Computed value 1.0/(2.0*resolution_)
Definition at line 625 of file distance_field.h.

protected 
X origin of the distance field.
Definition at line 621 of file distance_field.h.

protected 
Y origin of the distance field.
Definition at line 622 of file distance_field.h.

protected 
Z origin of the distance field.
Definition at line 623 of file distance_field.h.

protected 
Resolution of the distance field.
Definition at line 624 of file distance_field.h.

protected 
X size of the distance field.
Definition at line 618 of file distance_field.h.

protected 
Y size of the distance field.
Definition at line 619 of file distance_field.h.

protected 
Z size of the distance field.
Definition at line 620 of file distance_field.h.