mirror of https://github.com/ArduPilot/ardupilot
96 lines
3.5 KiB
C
96 lines
3.5 KiB
C
#pragma once
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#include <inttypes.h>
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#include <AP_Common/AP_Common.h>
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#include <AP_HAL/AP_HAL.h>
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#include "vector2.h"
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#include "vector3.h"
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// scaling factor from 1e-7 degrees to meters at equater
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// == 1.0e-7 * DEG_TO_RAD * RADIUS_OF_EARTH
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#define LOCATION_SCALING_FACTOR 0.011131884502145034f
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// inverse of LOCATION_SCALING_FACTOR
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#define LOCATION_SCALING_FACTOR_INV 89.83204953368922f
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/*
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* LOCATION
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*/
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// longitude_scale - returns the scaler to compensate for shrinking longitude as you move north or south from the equator
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// Note: this does not include the scaling to convert longitude/latitude points to meters or centimeters
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float longitude_scale(const struct Location &loc);
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// return distance in meters between two locations
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float get_distance(const struct Location &loc1, const struct Location &loc2);
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// return distance in centimeters between two locations
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uint32_t get_distance_cm(const struct Location &loc1, const struct Location &loc2);
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// return bearing in centi-degrees between two locations
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int32_t get_bearing_cd(const struct Location &loc1, const struct Location &loc2);
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// see if location is past a line perpendicular to
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// the line between point1 and point2. If point1 is
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// our previous waypoint and point2 is our target waypoint
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// then this function returns true if we have flown past
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// the target waypoint
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bool location_passed_point(const struct Location & location,
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const struct Location & point1,
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const struct Location & point2);
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/*
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return the proportion we are along the path from point1 to
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point2. This will be less than >1 if we have passed point2
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*/
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float location_path_proportion(const struct Location &location,
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const struct Location &point1,
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const struct Location &point2);
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// extrapolate latitude/longitude given bearing and distance
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void location_update(struct Location &loc, float bearing, float distance);
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// extrapolate latitude/longitude given distances north and east
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void location_offset(struct Location &loc, float ofs_north, float ofs_east);
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/*
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return the distance in meters in North/East plane as a N/E vector
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from loc1 to loc2
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*/
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Vector2f location_diff(const struct Location &loc1, const struct Location &loc2);
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/*
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* check if lat and lng match. Ignore altitude and options
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*/
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bool locations_are_same(const struct Location &loc1, const struct Location &loc2);
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/*
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* convert invalid waypoint with useful data. return true if location changed
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*/
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bool location_sanitize(const struct Location &defaultLoc, struct Location &loc);
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/*
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print a int32_t lat/long in decimal degrees
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*/
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void print_latlon(AP_HAL::BetterStream *s, int32_t lat_or_lon);
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// Converts from WGS84 geodetic coordinates (lat, lon, height)
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// into WGS84 Earth Centered, Earth Fixed (ECEF) coordinates
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// (X, Y, Z)
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void wgsllh2ecef(const Vector3d &llh, Vector3d &ecef);
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// Converts from WGS84 Earth Centered, Earth Fixed (ECEF)
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// coordinates (X, Y, Z), into WHS84 geodetic
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// coordinates (lat, lon, height)
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void wgsecef2llh(const Vector3d &ecef, Vector3d &llh);
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// return true when lat and lng are within range
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bool check_lat(float lat);
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bool check_lng(float lng);
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bool check_lat(int32_t lat);
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bool check_lng(int32_t lng);
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bool check_latlng(float lat, float lng);
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bool check_latlng(int32_t lat, int32_t lng);
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bool check_latlng(Location loc);
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