class mrpt::obs::CObservationPointCloud

Overview

An observation from any sensor that can be summarized as a pointcloud.

The cloud can comprise plain XYZ points, or can include intensity, or RGB data; in particular, the point cloud can be any of the derived classes of mrpt::maps::CPointsMap.

The pointcloud has as frame of coordinates the sensorPose field, which may match the origin of the vehicle/robot or not.

This is a mrpt::obs::CObservation class, but it is defined in the mrpt_maps_grp library, so it can use mrpt::maps::CPointsMap.

See also:

CObservation, mrpt::maps::CPointsMap

#include <mrpt/obs/CObservationPointCloud.h>

class CObservationPointCloud: public mrpt::obs::CObservation
{
public:
    // enums

    enum ExternalStorageFormat;

    // fields

    mrpt::maps::CPointsMap::Ptr pointcloud;
    mrpt::poses::CPose3D sensorPose;

    // construction

    CObservationPointCloud();
    CObservationPointCloud(const CObservation3DRangeScan& o);

    // methods

    virtual void load_impl() const;
    virtual void unload() const;
    bool isExternallyStored() const;
    const std::string& getExternalStorageFile() const;

    void setAsExternalStorage(
        const std::string& fileName,
        const ExternalStorageFormat fmt
        );

    void overrideExternalStorageFormatFlag(const ExternalStorageFormat fmt);
    More efficient for converting a pointcloud();
    virtual void getSensorPose(mrpt::poses::CPose3D& out_sensorPose) const;
    virtual void setSensorPose(const mrpt::poses::CPose3D& newSensorPose);
    virtual void getDescriptionAsText(std::ostream& o) const;
};

Inherited Members

public:
    // fields

    mrpt::system::TTimeStamp timestamp {mrpt::Clock::now()};
    std::string sensorLabel;

    // methods

    mrpt::system::TTimeStamp getTimeStamp() const;
    virtual mrpt::system::TTimeStamp getOriginalReceivedTimeStamp() const;
    void load() const;
    virtual void unload() const;
    virtual bool exportTxtSupported() const;
    virtual std::string exportTxtHeader() const;
    virtual std::string exportTxtDataRow() const;

    template <class METRICMAP>
    bool insertObservationInto(
        METRICMAP& theMap,
        const std::optional<const mrpt::poses::CPose3D>& robotPose = std::nullopt
        ) const;

    virtual void getSensorPose(mrpt::poses::CPose3D& out_sensorPose) const = 0;
    void getSensorPose(mrpt::math::TPose3D& out_sensorPose) const;
    mrpt::math::TPose3D sensorPose() const;
    virtual void setSensorPose(const mrpt::poses::CPose3D& newSensorPose) = 0;
    void setSensorPose(const mrpt::math::TPose3D& newSensorPose);
    virtual void getDescriptionAsText(std::ostream& o) const;
    virtual std::string asString() const;

Fields

mrpt::maps::CPointsMap::Ptr pointcloud

The pointcloud.

mrpt::poses::CPose3D sensorPose

Sensor placement wrt the vehicle/robot.

i.e. A point at (0,0,0) in pointcloud is at sensorPose wrt the vehicle.

Methods

virtual void unload() const

Unload all images, for the case they being delayed-load images stored in external files (otherwise, has no effect).

See also:

load

More efficient for converting a pointcloud()

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

virtual void getSensorPose(mrpt::poses::CPose3D& out_sensorPose) const

A general method to retrieve the sensor pose on the robot.

Note that most sensors will return a full (6D) CPose3D, but see the derived classes for more details or special cases.

See also:

setSensorPose

virtual void setSensorPose(const mrpt::poses::CPose3D& newSensorPose)

A general method to change the sensor pose on the robot.

Note that most sensors will use the full (6D) CPose3D, but see the derived classes for more details or special cases.

See also:

getSensorPose

virtual void getDescriptionAsText(std::ostream& o) const

Build a detailed, multi-line textual description of the observation contents and dump it to the output stream.

If overried by derived classes, call base CObservation::getDescriptionAsText() first to show common information.

This is the text that appears in RawLogViewer when selecting an object in the dataset