pxmlw6n2f/Gazebo_Distributed_TCP/gazebo/sensors/GpuRaySensor.hh

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/*
* 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.
*
*/
#ifndef _GAZEBO_SENSORS_GPURAYSENSOR_HH_
#define _GAZEBO_SENSORS_GPURAYSENSOR_HH_
#include <memory>
#include <string>
#include <vector>
#include <ignition/math/Angle.hh>
#include <ignition/math/Pose3.hh>
#include "gazebo/math/Angle.hh"
#include "gazebo/math/Pose.hh"
#include "gazebo/rendering/RenderTypes.hh"
#include "gazebo/sensors/Sensor.hh"
#include "gazebo/transport/TransportTypes.hh"
#include "gazebo/util/system.hh"
namespace gazebo
{
/// \ingroup gazebo_sensors
/// \brief Sensors namespace
namespace sensors
{
// Forward declare private data pointer.
class GpuRaySensorPrivate;
/// \class GpuRaySensor GpuRaySensor.hh sensors/sensors.hh
/// \addtogroup gazebo_sensors
/// \{
/// \brief GPU based laser sensor
///
/// This sensor cast rays into the world, tests for intersections, and
/// reports the range to the nearest object. It is used by ranging
/// sensor models (e.g., sonars and scanning laser range finders).
class GAZEBO_VISIBLE GpuRaySensor: public Sensor
{
/// \brief Constructor
public: GpuRaySensor();
/// \brief Destructor
public: virtual ~GpuRaySensor();
/// \brief Load the sensor with SDF parameters
/// \param[in] _sdf SDF Sensor parameters
/// \param[in] _worldName Name of world to load from
public: virtual void Load(const std::string &_worldName,
sdf::ElementPtr _sdf);
/// \brief Load the sensor with default parameters
/// \param[in] _worldName Name of world to load from
public: virtual void Load(const std::string &_worldName);
/// \brief Initialize the ray
public: virtual void Init();
// Documentation inherited
protected: virtual bool UpdateImpl(const bool _force);
/// \brief Finalize the ray
protected: virtual void Fini();
// Documentation inherited
public: virtual std::string Topic() const;
/// \brief Returns a pointer to the internally kept rendering::GpuLaser
/// \return Pointer to GpuLaser
/// \deprecate See LaserCamera
public: rendering::GpuLaserPtr GetLaserCamera() const
GAZEBO_DEPRECATED(7.0);
/// \brief Returns a pointer to the internally kept rendering::GpuLaser
/// \return Pointer to GpuLaser
public: rendering::GpuLaserPtr LaserCamera() const;
/// \brief Get the minimum angle
/// \return The minimum angle
public: ignition::math::Angle AngleMin() const;
/// \brief Set the scan minimum angle
/// \param[in] _angle The minimum angle
public: void SetAngleMin(const double _angle);
/// \brief Get the maximum angle
/// \return the maximum angle
public: ignition::math::Angle AngleMax() const;
/// \brief Set the scan maximum angle
/// \param[in] _angle The maximum angle
public: void SetAngleMax(const double _angle);
/// \brief Get radians between each range
/// \return Return angle resolution
/// \deprecated See AngleResolution()
public: double GetAngleResolution() const GAZEBO_DEPRECATED(7.0);
/// \brief Get radians between each range
/// \return Return angle resolution
public: double AngleResolution() const;
/// \brief Get the minimum range
/// \return The minimum range
/// \deprecated See RangeMin
public: double GetRangeMin() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the minimum range
/// \return The minimum range
public: double RangeMin() const;
/// \brief Get the maximum range
/// \return The maximum range
/// \deprecated See RangeMax
public: double GetRangeMax() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the maximum range
/// \return The maximum range
public: double RangeMax() const;
/// \brief Get the range resolution
/// If RangeResolution is 1, the number of simulated rays is equal
/// to the number of returned range readings. If it's less than 1,
/// fewer simulated rays than actual returned range readings are
/// used, the results are interpolated from two nearest neighbors,
/// and vice versa.
/// \return The Range Resolution
/// \deprecated See RangeResolution()
public: double GetRangeResolution() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the range resolution
/// If RangeResolution is 1, the number of simulated rays is equal
/// to the number of returned range readings. If it's less than 1,
/// fewer simulated rays than actual returned range readings are
/// used, the results are interpolated from two nearest neighbors,
/// and vice versa.
/// \return The Range Resolution
public: double RangeResolution() const;
/// \brief Get the ray count
/// \return The number of rays
/// \deprecated See RayCount
public: int GetRayCount() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the ray count
/// \return The number of rays
public: int RayCount() const;
/// \brief Get the range count
/// \return The number of ranges
/// \deprecated See RangeCount
public: int GetRangeCount() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the range count
/// \return The number of ranges
public: int RangeCount() const;
/// \brief Get the vertical scan line count
/// \return The number of scan lines vertically
/// \deprecated See VerticalRayCount()
public: int GetVerticalRayCount() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the vertical scan line count
/// \return The number of scan lines vertically
public: int VerticalRayCount() const;
/// \brief Get the vertical scan line count
/// \return The number of scan lines vertically
/// \deprecated See VerticalRangeCount()
public: int GetVerticalRangeCount() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the vertical scan line count
/// \return The number of scan lines vertically
public: int VerticalRangeCount() const;
/// \brief Get the vertical scan bottom angle
/// \return The minimum angle of the scan block
public: ignition::math::Angle VerticalAngleMin() const;
/// \brief Set the vertical scan bottom angle
/// \param[in] _angle The minimum angle of the scan block
public: void SetVerticalAngleMin(const double _angle);
/// \brief Get the vertical scan line top angle
/// \return The Maximum angle of the scan block
public: ignition::math::Angle VerticalAngleMax() const;
/// \brief Set the vertical scan line top angle
/// \param[in] _angle The Maximum angle of the scan block
public: void SetVerticalAngleMax(const double _angle);
/// \brief Get the vertical angle in radians between each range
/// \return Resolution of the angle
/// \deprecated See VerticalAngleResolution
public: double GetVerticalAngleResolution() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the vertical angle in radians between each range
/// \return Resolution of the angle
public: double VerticalAngleResolution() const;
/// \brief Get detected range for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Returns RangeMax for no detection.
/// \deprecated See Range(int _index)
public: double GetRange(int _index) GAZEBO_DEPRECATED(7.0);
/// \brief Get detected range for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Returns RangeMax for no detection.
public: double Range(const int _index) const;
/// \brief Get all the ranges
/// \param[out] _range A vector that will contain all the range data
/// \deprecated See Ranges(std::vector<double> &_ranges)
public: void GetRanges(std::vector<double> &_ranges)
GAZEBO_DEPRECATED(7.0);
/// \brief Get all the ranges
/// \param[out] _range A vector that will contain all the range data
public: void Ranges(std::vector<double> &_ranges) const;
/// \brief Get detected retro (intensity) value for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Intensity value of ray
/// \deprecated See Retro(int _index)
public: double GetRetro(int _index) const GAZEBO_DEPRECATED(7.0);
/// \brief Get detected retro (intensity) value for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Intensity value of ray
public: double Retro(const int _index) const;
/// \brief Get detected fiducial value for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Fiducial value of ray
/// \deprecated See Fiducial(unsigned int _index)
public: int GetFiducial(int _index) const GAZEBO_DEPRECATED(7.0);
/// \brief Get detected fiducial value for a ray.
/// Warning: If you are accessing all the ray data in a loop
/// it's possible that the Ray will update in the middle of
/// your access loop. This means some data will come from one
/// scan, and some from another scan. You can solve this
/// problem by using SetActive(false) <your accessor loop>
/// SetActive(true).
/// \param[in] _index Index of specific ray
/// \return Fiducial value of ray
public: int Fiducial(const unsigned int _index) const;
/// \brief Gets the camera count
/// \return Number of cameras
/// \deprecated See CameraCount()
public: unsigned int GetCameraCount() const GAZEBO_DEPRECATED(7.0);
/// \brief Gets the camera count
/// \return Number of cameras
public: unsigned int CameraCount() const;
/// \brief Gets if sensor is horizontal
/// \return True if horizontal, false if not
public: bool IsHorizontal() const;
/// \brief Return the ratio of horizontal ray count to vertical ray
/// count.
///
/// A ray count is the number of simulated rays. Whereas a range count
/// is the total number of data points returned. When range count
/// != ray count, then values are interpolated between rays.
/// \deprecated See RayCountRatio
public: double GetRayCountRatio() const GAZEBO_DEPRECATED(7.0);
/// \brief Return the ratio of horizontal ray count to vertical ray
/// count.
///
/// A ray count is the number of simulated rays. Whereas a range count
/// is the total number of data points returned. When range count
/// != ray count, then values are interpolated between rays.
public: double RayCountRatio() const;
/// \brief Return the ratio of horizontal range count to vertical
/// range count.
///
/// A ray count is the number of simulated rays. Whereas a range count
/// is the total number of data points returned. When range count
/// != ray count, then values are interpolated between rays.
/// \deprecated See RangeCountRatio
public: double GetRangeCountRatio() const GAZEBO_DEPRECATED(7.0);
/// \brief Return the ratio of horizontal range count to vertical
/// range count.
///
/// A ray count is the number of simulated rays. Whereas a range count
/// is the total number of data points returned. When range count
/// != ray count, then values are interpolated between rays.
public: double RangeCountRatio() const;
/// \brief Get the horizontal field of view of the laser sensor.
/// \return The horizontal field of view of the laser sensor.
/// \deprecated See HorzFOV
public: double GetHorzFOV() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the horizontal field of view of the laser sensor.
/// \return The horizontal field of view of the laser sensor.
public: double HorzFOV() const;
/// \brief Get Cos Horz field-of-view
/// \return 2 * atan(tan(this->hfov/2) / cos(this->vfov/2))
/// \deprecated See CosHorzFOV
public: double GetCosHorzFOV() const GAZEBO_DEPRECATED(7.0);
/// \brief Get Cos Horz field-of-view
/// \return 2 * atan(tan(this->hfov/2) / cos(this->vfov/2))
public: double CosHorzFOV() const;
/// \brief Get the vertical field-of-view.
/// \deprecated See VertFOV
public: double GetVertFOV() const GAZEBO_DEPRECATED(7.0);
/// \brief Get the vertical field-of-view.
/// \return Vertical field of view.
public: double VertFOV() const;
/// \brief Get Cos Vert field-of-view
/// \return 2 * atan(tan(this->vfov/2) / cos(this->hfov/2))
/// \deprecated See CosVertFOV.
public: double GetCosVertFOV() const GAZEBO_DEPRECATED(7.0);
/// \brief Get Cos Vert field-of-view
/// \return 2 * atan(tan(this->vfov/2) / cos(this->hfov/2))
public: double CosVertFOV() const;
/// \brief Get (horizontal_max_angle + horizontal_min_angle) * 0.5
/// \return (horizontal_max_angle + horizontal_min_angle) * 0.5
/// \deprecated See HorzHalfAngle()
public: double GetHorzHalfAngle() const GAZEBO_DEPRECATED(7.0);
/// \brief Get (horizontal_max_angle + horizontal_min_angle) * 0.5
/// \return (horizontal_max_angle + horizontal_min_angle) * 0.5
public: double HorzHalfAngle() const;
/// \brief Get (vertical_max_angle + vertical_min_angle) * 0.5
/// \return (vertical_max_angle + vertical_min_angle) * 0.5
/// \deprecated See VertHalfAngle
public: double GetVertHalfAngle() const GAZEBO_DEPRECATED(7.0);
/// \brief Get (vertical_max_angle + vertical_min_angle) * 0.5
/// \return (vertical_max_angle + vertical_min_angle) * 0.5
public: double VertHalfAngle() const;
/// \brief Connect to the new laser frame event.
/// \param[in] _subscriber Event callback.
/// \deprecated See ConnectNewLaserFrame that accepts a std::function.
public: event::ConnectionPtr ConnectNewLaserFrame(
std::function<void(const float *, unsigned int, unsigned int,
unsigned int, const std::string &)> _subscriber);
/// \brief Disconnect Laser Frame.
/// \param[in,out] _conn Connection pointer to disconnect.
public: void DisconnectNewLaserFrame(event::ConnectionPtr &_conn);
// Documentation inherited
public: virtual bool IsActive() const;
/// brief Render the camera.
private: void Render();
/// \internal
/// \brief Private data pointer.
private: std::unique_ptr<GpuRaySensorPrivate> dataPtr;
};
/// \}
}
}
#endif