Representation of a space in which planning can be performed. Topology specific sampling, interpolation and distance are defined. More...
#include <StateManifold.h>
Public Types | |
typedef State | StateType |
Define the type of state allocated by this manifold. | |
Public Member Functions | |
StateManifold (void) | |
Constructor. Assigns a unique name to the manifold. | |
template<class T > | |
T * | as (void) |
Cast this instance to a desired type. | |
template<class T > | |
const T * | as (void) const |
Cast this instance to a desired type. | |
virtual void | printState (const State *state, std::ostream &out) const |
Print a state to a stream. | |
virtual void | printSettings (std::ostream &out) const |
Print the settings for this manifold to a stream. | |
virtual void | printProjections (std::ostream &out) const |
Print the list of registered projections. This function is also called by printSettings() | |
virtual void | setup (void) |
Perform final setup steps. This function is automatically called by the SpaceInformation. If any default projections are to be registered, this call will set them. It is safe to call this function multiple times. | |
Generic functionality for manifolds | |
virtual bool | isCompound (void) const |
Check if the manifold is compound. | |
const std::string & | getName (void) const |
Get the name of the manifold. | |
void | setName (const std::string &name) |
Set the name of the manifold. | |
int | getType (void) const |
Get the type of the manifold. The type can be used to verify whether two manifold instances are of the same type (e.g., SO2) | |
bool | includes (const StateManifoldPtr &other) const |
Return true if other is a manifold included (perhaps equal, perhaps a submanifold) in this one. | |
bool | covers (const StateManifoldPtr &other) const |
Return true if other is a manifold that is either included (perhaps equal, perhaps a submanifold) in this one, or all of its submanifolds are included in this one. | |
Functionality specific to the manifold (to be implemented by inherited manifolds) | |
virtual unsigned int | getDimension (void) const =0 |
Get the dimension of the space. | |
virtual double | getMaximumExtent (void) const =0 |
Get the maximum value a call to distance() can return. | |
virtual void | enforceBounds (State *state) const =0 |
Bring the state within the bounds of the state space. | |
virtual bool | satisfiesBounds (const State *state) const =0 |
Check if a state is inside the bounding box. | |
virtual void | copyState (State *destination, const State *source) const =0 |
Copy a state to another. The memory of source and destination should NOT overlap. | |
virtual double | distance (const State *state1, const State *state2) const =0 |
Computes distance to between two states. This value will always be between 0 and getMaximumExtent() | |
virtual double * | getValueAddressAtIndex (State *state, const unsigned int index) const |
Many states contain a number of double values. This function provides a means to get the memory address of a double value from state state located at position index. The first double value is returned for index = 0. If index is too large (does not point to any double values in the state), the return value is NULL. | |
virtual double | getLongestValidSegmentFraction (void) const |
When performing discrete validation of motions, the length of the longest segment that does not require state validation needs to be specified. This function returns this length, for this manifold, as a fraction of the manifold's maximum extent. | |
virtual void | setLongestValidSegmentFraction (double segmentFraction) |
When performing discrete validation of motions, the length of the longest segment that does not require state validation needs to be specified. This function sets this length as a fraction of the manifold's maximum extent. | |
virtual unsigned int | validSegmentCount (const State *state1, const State *state2) const |
Count how many segments of the "longest valid length" fit on the motion from state1 to state2. | |
void | setValidSegmentCountFactor (unsigned int factor) |
Set factor to be the value to multiply the return value of validSegmentCount(). By default, this value is 1. The higher the value, the smaller the size of the segments considered valid. The effect of this function is immediate (setup() does not need to be called). | |
unsigned int | getValidSegmentCountFactor (void) const |
Get the value used to multiply the return value of validSegmentCount(). | |
virtual bool | equalStates (const State *state1, const State *state2) const =0 |
Checks whether two states are equal. | |
virtual void | interpolate (const State *from, const State *to, const double t, State *state) const =0 |
Computes the state that lies at time t in [0, 1] on the segment that connects from state to to state. The memory location of state is not required to be different from the memory of either from or to. | |
virtual ManifoldStateSamplerPtr | allocStateSampler (void) const =0 |
Allocate an instance of a uniform state sampler for this space. | |
virtual State * | allocState (void) const =0 |
Allocate a state that can store a point in the described space. | |
virtual void | freeState (State *state) const =0 |
Free the memory of the allocated state. | |
Management of projections from this manifold to Euclidean spaces | |
void | registerProjection (const std::string &name, const ProjectionEvaluatorPtr &projection) |
Register a projection for this manifold under a specified name. | |
void | registerDefaultProjection (const ProjectionEvaluatorPtr &projection) |
Register the default projection for this manifold. | |
virtual void | registerProjections (void) |
Register the projections for this manifold. Usually, this is at least the default projection. These are implicit projections, set by the implementation of the manifold. This is called by setup(). | |
ProjectionEvaluatorPtr | getProjection (const std::string &name) const |
Get the projection registered under a specific name. | |
ProjectionEvaluatorPtr | getDefaultProjection (void) const |
Get the default projection. | |
bool | hasProjection (const std::string &name) const |
Check if a projection with a specified name is available. | |
bool | hasDefaultProjection (void) const |
Check if a default projection is available. | |
const std::map< std::string, ProjectionEvaluatorPtr > & | getRegisteredProjections (void) const |
Get all the registered projections. | |
Static Public Member Functions | |
static void | diagram (std::ostream &out) |
Print a Graphviz digraph that represents the containment diagram for all the available manifolds. | |
Protected Attributes | |
int | type_ |
A type assigned for this manifold. | |
double | maxExtent_ |
The extent of this manifold at the time setup() was called. | |
double | longestValidSegmentFraction_ |
The fraction of the longest valid segment. | |
double | longestValidSegment_ |
The longest valid segment at the time setup() was called. | |
unsigned int | longestValidSegmentCountFactor_ |
The factor to multiply the value returned by validSegmentCount() | |
msg::Interface | msg_ |
Interface used for console output. | |
std::map< std::string, ProjectionEvaluatorPtr > | projections_ |
List of available projections. | |
Static Protected Attributes | |
static const std::string | DEFAULT_PROJECTION_NAME = "" |
The name used for the default projection. |
Representation of a space in which planning can be performed. Topology specific sampling, interpolation and distance are defined.
See Implementing State Manifolds.
Definition at line 70 of file StateManifold.h.
T* ompl::base::StateManifold::as | ( | void | ) | [inline] |
Cast this instance to a desired type.
Make sure the type we are casting to is indeed a state manifold
Definition at line 84 of file StateManifold.h.
const T* ompl::base::StateManifold::as | ( | void | ) | const [inline] |
Cast this instance to a desired type.
Make sure the type we are casting to is indeed a state manifold
Definition at line 94 of file StateManifold.h.
void ompl::base::StateManifold::setLongestValidSegmentFraction | ( | double | segmentFraction | ) | [virtual] |
When performing discrete validation of motions, the length of the longest segment that does not require state validation needs to be specified. This function sets this length as a fraction of the manifold's maximum extent.
Reimplemented in ompl::base::CompoundStateManifold.
Definition at line 301 of file StateManifold.cpp.