mirror of https://github.com/ArduPilot/ardupilot
AC_Avoidance: bendy ruler format fixes
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8d641e1bb3
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@ -113,7 +113,7 @@ bool AP_OABendyRuler::update(const Location& current_loc, const Location& destin
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} else {
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ground_course_deg = degrees(ground_speed_vec.angle());
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}
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bool ret;
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switch (get_type()) {
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case OABendyType::OA_BENDY_VERTICAL:
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@ -128,7 +128,7 @@ bool AP_OABendyRuler::update(const Location& current_loc, const Location& destin
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ret = search_xy_path(current_loc, destination, ground_course_deg, destination_new, lookahead_step1_dist, lookahead_step2_dist, bearing_to_dest, distance_to_dest, proximity_only);
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bendy_type = OABendyType::OA_BENDY_HORIZONTAL;
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}
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return ret;
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}
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@ -236,7 +236,7 @@ bool AP_OABendyRuler::search_xy_path(const Location& current_loc, const Location
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}
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// Search for path in the vertical directions
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bool AP_OABendyRuler::search_vertical_path(const Location& current_loc, const Location& destination,Location &destination_new, const float &lookahead_step1_dist, const float &lookahead_step2_dist, const float &bearing_to_dest, const float &distance_to_dest, bool proximity_only)
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bool AP_OABendyRuler::search_vertical_path(const Location ¤t_loc, const Location &destination, Location &destination_new, float lookahead_step1_dist, float lookahead_step2_dist, float bearing_to_dest, float distance_to_dest, bool proximity_only)
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{
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// check OA_BEARING_INC_VERTICAL definition allows checking in all directions
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static_assert(360 % OA_BENDYRULER_BEARING_INC_VERTICAL == 0, "check 360 is a multiple of OA_BEARING_INC_VERTICAL");
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@ -285,7 +285,7 @@ bool AP_OABendyRuler::search_vertical_path(const Location& current_loc, const Lo
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for (uint8_t j = 0; j < ARRAY_SIZE(test_pitch_step2); j++) {
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float bearing_test2 = wrap_180(test_pitch_step2[j]);
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Location test_loc2 = test_loc;
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test_loc2.offset_bearing_and_pitch(bearing_to_dest2, bearing_test2 ,distance2);
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test_loc2.offset_bearing_and_pitch(bearing_to_dest2, bearing_test2, distance2);
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// calculate minimum margin to fence and obstacles for this scenario
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float margin2 = calc_avoidance_margin(test_loc, test_loc2, proximity_only);
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@ -309,7 +309,7 @@ bool AP_OABendyRuler::search_vertical_path(const Location& current_loc, const Lo
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}
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// project in the chosen direction by the full distance
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destination_new = current_loc;
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destination_new.offset_bearing_and_pitch(bearing_to_dest,pitch_delta, distance_to_dest);
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destination_new.offset_bearing_and_pitch(bearing_to_dest, pitch_delta, distance_to_dest);
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_current_lookahead = MIN(_lookahead, _current_lookahead * 1.1f);
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Write_OABendyRuler((uint8_t)OABendyType::OA_BENDY_VERTICAL, active, bearing_to_dest, pitch_delta, false, margin, destination, destination_new);
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@ -40,7 +40,7 @@ private:
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bool search_xy_path(const Location& current_loc, const Location& destination, float ground_course_deg, Location &destination_new, float lookahead_step_1_dist, float lookahead_step_2_dist, float bearing_to_dest, float distance_to_dest, bool proximity_only);
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// search for path in the Vertical directions
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bool search_vertical_path(const Location& current_loc, const Location& destination,Location &destination_new, const float &lookahead_step1_dist, const float &lookahead_step2_dist, const float &bearing_to_dest, const float &distance_to_dest, bool proximity_only);
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bool search_vertical_path(const Location ¤t_loc, const Location &destination, Location &destination_new, float lookahead_step1_dist, float lookahead_step2_dist, float bearing_to_dest, float distance_to_dest, bool proximity_only);
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// calculate minimum distance between a path and any obstacle
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float calc_avoidance_margin(const Location &start, const Location &end, bool proximity_only) const;
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