# AUTOPUSH # Visual entry of pushback route. # # Copyright (c) 2018 Autopush authors: # Michael Danilov # Joshua Davidson http://github.com/Octal450 # Merspieler http://gitlab.com/merspieler # Distribute under the terms of GPLv2. var _listener = nil; var _view_listener = nil; var _user_points = dynarr.dynarr.new(4); var _user_point_modes = dynarr.dynarr.new(4); # Modes: 0 = Bezier node, 1 = Bezier end/start node, 2 = Reverse var _route = []; var _route_hdg = []; var _route_reverse = []; var _view_index = nil; var _user_point_models = []; var _waypoint_models = []; var _N = 0; var _show = 0; var _view_changed_or_external = 0; var _R_turn_min = 0; var _invalid = 0; var _add = func(pos) { if (_N) { var (A, S) = courseAndDistance(_user_points.arr[_N - 1], pos); S *= NM2M; if (S < _R_turn_min) { gui.popupTip("Too close to the previous point,\ntry again"); return; }else if (S > 10000.0) { gui.popupTip("Too far from the previous point,\ntry again"); return; } } _user_points.add(geo.Coord.new(pos)); if (_user_point_modes.maxsize == 1 and _user_point_modes.size == 1) { _user_point_modes.arr[0] = 0; } else { _user_point_modes.add(0); } setsize(_user_point_models, _N + 1); _user_point_models[_N] = geo.put_model("Models/Autopush/cursor.xml", pos, 0.0); _N += 1; if (_N == 1) { gui.popupTip("Click waypoints, press \"Done\" to finish"); } else { _calculate_route(); _place_waypoint_models(); } } var delete_last = func() { if (_listener == nil) { return; } if (_N > 1) { _N -= 1; _user_points.del(_N); _user_point_modes.del(_N); _user_point_models[_N].remove(); _user_point_models[_N] = nil; setsize(_user_point_models, _N); _calculate_route(); _place_waypoint_models(); } } var _stop = func(fail = 0) { if (_listener != nil) { removelistener(_listener); _listener = nil; if (!fail) { settimer(func() { _reset_view(); gui.popupTip("Done"); }, 1.0); } else { _reset_view(); } } } var _place_user_point_models = func() { _clear_user_point_models(); setsize(_user_point_models, _N); var user_points = _user_points.get_sliced(); for (var ii = 0; ii < _N; ii += 1) { var model = "Models/Autopush/cursor.xml"; if (_user_point_modes.arr[ii] == 1) { model = "Models/Autopush/cursor_sharp.xml"; } else if (_user_point_modes.arr[ii] == 2) { model = "Models/Autopush/cursor_reverse.xml"; } _user_point_models[ii] = geo.put_model(model, user_points[ii], 0.0); } } var _clear_user_point_models = func() { for (var ii = 0; ii < size(_user_point_models); ii += 1) { if (_user_point_models[ii] != nil) { _user_point_models[ii].remove(); _user_point_models[ii] = nil; } } setsize(_user_point_models, 0); } var _place_waypoint_models = func() { _clear_waypoint_models(); setsize(_waypoint_models, size(_route)); for (var ii = 0; ii < size(_route); ii += 1) { _waypoint_models[ii] = geo.put_model("Models/Autopush/waypoint.xml", _route[ii], _route_hdg[ii]); } } var _clear_waypoint_models = func() { for (var ii = 0; ii < size(_waypoint_models); ii += 1) { if (_waypoint_models[ii] != nil) { _waypoint_models[ii].remove(); _waypoint_models[ii] = nil; } } setsize(_waypoint_models, 0); } var _set_view = func() { if (!getprop("/sim/current-view/internal")){ _view_changed_or_external = 1; return; } _view_index = getprop("/sim/current-view/view-number"); # While "Chase View Without Yaw" would have looked better, only "Model View" resets its z-offset back to normal by itself. setprop("/sim/current-view/view-number", view.indexof("Model View")); setprop("/sim/current-view/z-offset-m", -500.0); setprop("/sim/current-view/pitch-offset-deg", 90.0); setprop("/sim/current-view/heading-offset-deg", 0.0); _view_changed_or_external = 0; _view_listener = setlistener("/sim/current-view/name", func { _view_changed_or_external = 1; }); } var _reset_view = func() { if (!_view_changed_or_external) { setprop("/sim/current-view/view-number", _view_index); } if (_view_listener != nil) { removelistener(_view_listener); _view_listener = nil; } if (!_show) { _clear_user_point_models(); _clear_waypoint_models(); } } var _calculate_route = func() { _route = []; _route_reverse = []; var user_points = _user_points.get_sliced(); var route = dynarr.dynarr.new(); # add the first point cause it will be fix at this pos route.add(geo.Coord.new(user_points[0])); n = size(user_points); var base = 0; # Detect points where push/pull direction is reversed. for (var i = 0; i < n; i += 1) { if (i and (i < n - 1)) { if((_user_point_modes.arr[i] == 1) or (_user_point_modes.arr[i] == 2)) { var newmode = 1; var deltaA = abs(geo.normdeg180(user_points[i - 1].course_to(user_points[i]) - user_points[i].course_to(user_points[i + 1]))); if (deltaA > 91.0) { newmode = 2; } if(newmode != _user_point_modes.arr[i]){ _set_userpoint_mode(i, newmode); } } } else { # Clear reverse for first and last points. if(_user_point_modes.arr[i] == 2) { if(_user_point_modes.arr[i] != 1){ _set_userpoint_mode(i, 1); } } } } for (var i = 0; i < n; i += 1) { if (_user_point_modes.arr[i] or (i == n - 1)) { if (i - base > 0) { var bezier = _calculate_bezier(user_points[base:i]); if (bezier != nil) { var m = size(bezier); for (var j = 0; j < m; j += 1) { route.add(geo.Coord.new(bezier[j])); } } } base = i; route.add(geo.Coord.new(user_points[i])); if (_user_point_modes.arr[i] == 2) { var route_size = size(route.get_sliced()); setsize(_route_reverse, route_size); _route_reverse[route_size - 1] = 1; } } } var PNumber = size(user_points); _route = route.get_sliced(); setsize(_route_reverse, size(_route)); _check_turn_radius(); _calculate_hdg(); } var _calculate_bezier = func(user_points) { var route = dynarr.dynarr.new(); var PNumber = size(user_points); if (PNumber > 1) { var pointList = []; setsize(pointList, PNumber); for (var i = 0; i < PNumber; i += 1) { pointList[i] = []; setsize(pointList[i], PNumber); } pointList[0] = user_points; var len = 0; for (var i = 0; i < PNumber - 1; i += 1) { len += user_points[i].distance_to(user_points[i + 1]); } var step = _R_turn_min / len; for (var i = step; i < 1 - step; i+= step) { # start iterating from 1 cause we don't need to iterate over Pn for (var j = 1; j < PNumber; j += 1) { for (var k = 0; k < PNumber - j; k += 1) { pointList[j][k] = geo.Coord.new(pointList[j - 1][k]); var dist = pointList[j - 1][k].distance_to(pointList[j - 1][k + 1]); var course = pointList[j - 1][k].course_to(pointList[j - 1][k + 1]); pointList[j][k].apply_course_distance(course, dist * i); } } pointList[PNumber - 1][0].set_alt(geo.elevation(pointList[PNumber - 1][0].lat(),pointList[PNumber - 1][0].lon())); route.add(geo.Coord.new(pointList[PNumber - 1][0])); } } return route.get_sliced(); } var _calculate_hdg = func() { _route_hdg = []; var route_hdg = dynarr.dynarr.new(); var ilast = size(_route) - 1; for (i = 0; i < ilast; i += 1) { var hdg = _route[i].course_to(_route[i + 1]); route_hdg.add(hdg); } # Last heading would be undefined, so just repeat the one before the last. route_hdg.add(route_hdg.get_sliced()[ilast - 1]); _route_hdg = route_hdg.get_sliced(); } # Checks each waypoint's turn radius and marks the route invalid if # it is smaller than the aircraft's turn radius. var _check_turn_radius = func() { # A waypoint's turn radius is the radius of a circle circumscribed around the waypoint, previous and next waypoints. # Formula source: https://math.stackexchange.com/questions/947882/radius-of-circumscribed-circle-of-triangle-as-function-of-the-sides var len = size(_route); _invalid = 0; # We can't calculate the radius for the first and last point for (i = 1; i < len - 2; i += 1) { # Disable check for push and pull points if (_route_reverse[i] != 1) { var a = _route[i].distance_to(_route[i + 1]); var b = _route[i].distance_to(_route[i - 1]); var c = _route[i - 1].distance_to(_route[i + 1]); var margin = _R_turn_min / 5000; # Stright line check with marging to prevent floating point error if (a + b + margin >= c and a + b - margin <= c) { var r = - 1; } else { var r = (a * b * c) / math.sqrt( 2 * a * a * b * b + 2 * a * a * c * c + 2 * b * b * c * c - a * a * a * a - b * b * b * b - c * c * c * c ); } if ((r < _R_turn_min) and (r != -1)) { _invalid = 1; } } } setprop("/sim/model/autopush/route/invalid", _invalid); } setlistener("/sim/model/autopush/route/show", func(p) { var show = p.getValue(); if (_listener == nil) { if (show > _show) { _place_user_point_models(); _place_waypoint_models(); } else if (show < _show) { _clear_user_point_models(); _clear_waypoint_models(); } } _show = show; }); var enter = func() { clear(); _set_view(); _R_turn_min = getprop("/sim/model/autopush/min-turn-radius-m"); var wp = geo.aircraft_position(); var H = geo.elevation(wp.lat(), wp.lon()); if (H != nil) { wp.set_alt(H); } _add(wp); _listener = setlistener("/sim/signals/click", func { _add(geo.click_position()); }); # This property can be overridden manually, if needed. var wingspan = getprop("/sim/model/autopush/route/wingspan-m"); if ((wingspan == nil) or (wingspan == 0.0)) { # JSBSim wingspan = getprop("/fdm/jsbsim/metrics/bw-ft"); if (wingspan != nil) { wingspan *= FT2M; } else { # YAsim wingspan = getprop("/fdm/yasim/model/wings/wing/wing-span"); } setprop("/sim/model/autopush/route/wingspan-m", wingspan); } } var _set_userpoint_mode = func(id, mode) { if (_user_point_modes.arr[id] != mode) { _user_point_modes.arr[id] = mode; } if (_user_point_models[id] != nil) { _user_point_models[id].remove(); var model = "Models/Autopush/cursor.xml"; if (_user_point_modes.arr[id] == 1) { model = "Models/Autopush/cursor_sharp.xml"; } else if (_user_point_modes.arr[id] == 2) { model = "Models/Autopush/cursor_reverse.xml"; } _user_point_models[id] = geo.put_model(model, _user_points.get_sliced()[id], 0.0); } } var toggle_sharp = func() { if (_listener == nil) { return; } id = _N - 1; if (_user_point_modes.arr[id]) { _set_userpoint_mode(id, 0); } else { _set_userpoint_mode(id, 1); } } var done = func() { _stop(0); } var clear = func() { autopush_driver.stop(); _stop(1); _clear_user_point_models(); _clear_waypoint_models(); _N = 0; _user_points = dynarr.dynarr.new(4); _user_point_modes = dynarr.dynarr.new(1); } var route = func() { if (_invalid or (_N < 2)) { return nil; } return _route; } var route_reverse = func() { if (_invalid or (_N < 2)) { return nil; } return _route_reverse; }