mirror of https://github.com/ArduPilot/ardupilot
237 lines
7.7 KiB
C++
237 lines
7.7 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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#include <AP_Common/AP_Common.h>
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#include <AP_HAL/AP_HAL_Boards.h>
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#include <AP_HAL/Semaphores.h>
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#include <AP_Param/AP_Param.h>
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#include <GCS_MAVLink/GCS_MAVLink.h>
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#include <AP_MSP/msp.h>
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#include "AP_RangeFinder_Params.h"
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#ifndef AP_RANGEFINDER_ENABLED
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#define AP_RANGEFINDER_ENABLED 1
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#endif
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#ifndef AP_RANGEFINDER_BACKEND_DEFAULT_ENABLED
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#define AP_RANGEFINDER_BACKEND_DEFAULT_ENABLED AP_RANGEFINDER_ENABLED
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#endif
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// Maximum number of range finder instances available on this platform
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#ifndef RANGEFINDER_MAX_INSTANCES
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#if AP_RANGEFINDER_ENABLED
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#define RANGEFINDER_MAX_INSTANCES 10
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#else
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#define RANGEFINDER_MAX_INSTANCES 1
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#endif
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#endif
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#define RANGEFINDER_GROUND_CLEARANCE_CM_DEFAULT 10
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#define RANGEFINDER_PREARM_ALT_MAX_CM 200
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#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
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#define RANGEFINDER_PREARM_REQUIRED_CHANGE_CM 0
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#else
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#define RANGEFINDER_PREARM_REQUIRED_CHANGE_CM 50
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#endif
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#ifndef HAL_MSP_RANGEFINDER_ENABLED
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#define HAL_MSP_RANGEFINDER_ENABLED HAL_MSP_ENABLED && !HAL_MINIMIZE_FEATURES
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#endif
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class AP_RangeFinder_Backend;
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class RangeFinder
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{
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friend class AP_RangeFinder_Backend;
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//UAVCAN drivers are initialised in the Backend, hence list of drivers is needed there.
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friend class AP_RangeFinder_UAVCAN;
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public:
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RangeFinder();
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/* Do not allow copies */
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CLASS_NO_COPY(RangeFinder);
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// RangeFinder driver types
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enum class Type {
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NONE = 0,
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ANALOG = 1,
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MBI2C = 2,
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PLI2C = 3,
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// PX4 = 4, // no longer used, but may be in some user's parameters
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PX4_PWM= 5,
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BBB_PRU= 6,
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LWI2C = 7,
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LWSER = 8,
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BEBOP = 9,
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MAVLink = 10,
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USD1_Serial = 11,
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LEDDARONE = 12,
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MBSER = 13,
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TRI2C = 14,
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PLI2CV3= 15,
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VL53L0X = 16,
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NMEA = 17,
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WASP = 18,
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BenewakeTF02 = 19,
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BenewakeTFmini = 20,
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PLI2CV3HP = 21,
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PWM = 22,
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BLPing = 23,
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UAVCAN = 24,
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BenewakeTFminiPlus = 25,
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Lanbao = 26,
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BenewakeTF03 = 27,
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VL53L1X_Short = 28,
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LeddarVu8_Serial = 29,
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HC_SR04 = 30,
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GYUS42v2 = 31,
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MSP = 32,
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USD1_CAN = 33,
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Benewake_CAN = 34,
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TeraRanger_Serial = 35,
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Lua_Scripting = 36,
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SIM = 100,
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};
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enum class Function {
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LINEAR = 0,
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INVERTED = 1,
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HYPERBOLA = 2
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};
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enum class Status {
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NotConnected = 0,
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NoData,
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OutOfRangeLow,
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OutOfRangeHigh,
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Good
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};
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// The RangeFinder_State structure is filled in by the backend driver
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struct RangeFinder_State {
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float distance_m; // distance in meters
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uint16_t voltage_mv; // voltage in millivolts, if applicable, otherwise 0
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enum RangeFinder::Status status; // sensor status
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uint8_t range_valid_count; // number of consecutive valid readings (maxes out at 10)
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uint32_t last_reading_ms; // system time of last successful update from sensor
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const struct AP_Param::GroupInfo *var_info;
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};
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static const struct AP_Param::GroupInfo *backend_var_info[RANGEFINDER_MAX_INSTANCES];
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// parameters for each instance
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static const struct AP_Param::GroupInfo var_info[];
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void set_log_rfnd_bit(uint32_t log_rfnd_bit) { _log_rfnd_bit = log_rfnd_bit; }
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/*
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Return the number of range finder instances. Note that if users
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sets up rangefinders with a gap in the types then this is the
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index of the maximum sensor ID plus one, so this gives the value
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that should be used when iterating over all sensors
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*/
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uint8_t num_sensors(void) const {
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return num_instances;
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}
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// prearm checks
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bool prearm_healthy(char *failure_msg, const uint8_t failure_msg_len) const;
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// detect and initialise any available rangefinders
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void init(enum Rotation orientation_default);
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// update state of all rangefinders. Should be called at around
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// 10Hz from main loop
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void update(void);
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// Handle an incoming DISTANCE_SENSOR message (from a MAVLink enabled range finder)
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void handle_msg(const mavlink_message_t &msg);
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#if HAL_MSP_RANGEFINDER_ENABLED
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// Handle an incoming DISTANCE_SENSOR message (from a MSP enabled range finder)
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void handle_msp(const MSP::msp_rangefinder_data_message_t &pkt);
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#endif
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// return true if we have a range finder with the specified orientation
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bool has_orientation(enum Rotation orientation) const;
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// find first range finder instance with the specified orientation
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AP_RangeFinder_Backend *find_instance(enum Rotation orientation) const;
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AP_RangeFinder_Backend *get_backend(uint8_t id) const;
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// get rangefinder type for an ID
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Type get_type(uint8_t id) const {
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return id >= RANGEFINDER_MAX_INSTANCES? Type::NONE : Type(params[id].type.get());
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}
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// get rangefinder address (for AP_Periph CAN)
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uint8_t get_address(uint8_t id) const {
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return id >= RANGEFINDER_MAX_INSTANCES? 0 : uint8_t(params[id].address.get());
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}
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// methods to return a distance on a particular orientation from
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// any sensor which can current supply it
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float distance_orient(enum Rotation orientation) const;
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uint16_t distance_cm_orient(enum Rotation orientation) const;
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int16_t max_distance_cm_orient(enum Rotation orientation) const;
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int16_t min_distance_cm_orient(enum Rotation orientation) const;
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int16_t ground_clearance_cm_orient(enum Rotation orientation) const;
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MAV_DISTANCE_SENSOR get_mav_distance_sensor_type_orient(enum Rotation orientation) const;
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RangeFinder::Status status_orient(enum Rotation orientation) const;
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bool has_data_orient(enum Rotation orientation) const;
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uint8_t range_valid_count_orient(enum Rotation orientation) const;
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const Vector3f &get_pos_offset_orient(enum Rotation orientation) const;
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uint32_t last_reading_ms(enum Rotation orientation) const;
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// get temperature reading in C. returns true on success and populates temp argument
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bool get_temp(enum Rotation orientation, float &temp) const;
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/*
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set an externally estimated terrain height. Used to enable power
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saving (where available) at high altitudes.
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*/
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void set_estimated_terrain_height(float height) {
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estimated_terrain_height = height;
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}
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static RangeFinder *get_singleton(void) { return _singleton; }
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protected:
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AP_RangeFinder_Params params[RANGEFINDER_MAX_INSTANCES];
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private:
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static RangeFinder *_singleton;
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RangeFinder_State state[RANGEFINDER_MAX_INSTANCES];
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AP_RangeFinder_Backend *drivers[RANGEFINDER_MAX_INSTANCES];
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uint8_t num_instances;
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HAL_Semaphore detect_sem;
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float estimated_terrain_height;
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Vector3f pos_offset_zero; // allows returning position offsets of zero for invalid requests
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void detect_instance(uint8_t instance, uint8_t& serial_instance);
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bool _add_backend(AP_RangeFinder_Backend *driver, uint8_t instance, uint8_t serial_instance=0);
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uint32_t _log_rfnd_bit = -1;
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void Log_RFND() const;
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};
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namespace AP {
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RangeFinder *rangefinder();
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};
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