Commit c2a7e1e8 authored by Roque's avatar Roque

Fix coordinates conversion

See merge request !1807
parents 98aa5f07 6a6f2bd3
...@@ -93,7 +93,7 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -93,7 +93,7 @@ var FixedWingDroneAPI = /** @class */ (function () {
** Function called on every drone update, right before onUpdate AI script ** Function called on every drone update, right before onUpdate AI script
*/ */
FixedWingDroneAPI.prototype.internal_update = function (context, delta_time) { FixedWingDroneAPI.prototype.internal_update = function (context, delta_time) {
var diff, newrot, orientationValue, rotStep, updateSpeed; var diff, newrot, orientationValue, rotStep;
//TODO rotation //TODO rotation
if (context._rotationTarget) { if (context._rotationTarget) {
...@@ -117,18 +117,8 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -117,18 +117,8 @@ var FixedWingDroneAPI = /** @class */ (function () {
} }
this._updateSpeed(context, delta_time); this._updateSpeed(context, delta_time);
this._updateDirection(context, delta_time); this._updatePosition(context, delta_time);
updateSpeed = context._speed * delta_time / 1000;
if (context._direction.x !== 0 ||
context._direction.y !== 0 ||
context._direction.z !== 0) {
context._controlMesh.position.addInPlace(new BABYLON.Vector3(
context._direction.x * updateSpeed,
context._direction.y * updateSpeed,
context._direction.z * updateSpeed
));
}
//TODO rotation //TODO rotation
orientationValue = context._maxOrientation * orientationValue = context._maxOrientation *
(context._speed / context._maxSpeed); (context._speed / context._maxSpeed);
...@@ -181,50 +171,99 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -181,50 +171,99 @@ var FixedWingDroneAPI = /** @class */ (function () {
} }
}; };
FixedWingDroneAPI.prototype._updateDirection = function (drone, delta_time) { FixedWingDroneAPI.prototype._updatePosition = function (drone, delta_time) {
var horizontalCoeff, newX, newY, newZ, tangentYaw; var R = 6371e3,
currentGeoCoordinates = this._mapManager.convertToGeoCoordinates(
drone.position.x,
drone.position.y,
drone.position.z
),
targetCoordinates = this._mapManager.convertToGeoCoordinates(
drone._targetCoordinates.x,
drone._targetCoordinates.y,
drone._targetCoordinates.z
),
bearing = this._computeBearing(
currentGeoCoordinates.x,
currentGeoCoordinates.y,
targetCoordinates.x,
targetCoordinates.y
),
currentCosLat,
currentLatRad,
distance,
distanceCos,
distanceSin,
currentSinLat,
currentLonRad,
groundSpeed,
newCoordinates,
newLatRad,
newLonRad,
newYaw,
newYawRad,
verticalSpeed,
yawToDirection;
if (this._loiter_mode && Math.sqrt( if (this._loiter_mode && Math.sqrt(
Math.pow(drone._targetCoordinates.x - drone.position.x, 2) + Math.pow(drone._targetCoordinates.x - drone.position.x, 2) +
Math.pow(drone._targetCoordinates.y - drone.position.y, 2) Math.pow(drone._targetCoordinates.y - drone.position.y, 2)
) <= this._loiter_radius) { ) <= this._loiter_radius) {
tangentYaw = this._computeBearing( newYaw = bearing - 90;
drone.position.x,
drone.position.y,
drone._targetCoordinates.x,
drone._targetCoordinates.y
) - 90;
// trigonometric circle is east oriented, yaw angle is clockwise
tangentYaw = this._toRad(-tangentYaw + 90);
newX = Math.cos(tangentYaw);
newZ = Math.sin(tangentYaw);
} else { } else {
[newX, newZ] = this._getNewYaw(drone, delta_time); newYaw = this._getNewYaw(drone, bearing, delta_time);
} }
newY = this._getNewAltitude(drone); newYawRad = this._toRad(newYaw);
currentLatRad = this._toRad(currentGeoCoordinates.x);
currentCosLat = Math.cos(currentLatRad);
currentSinLat = Math.sin(currentLatRad);
currentLonRad = this._toRad(currentGeoCoordinates.y);
verticalSpeed = this._getVerticalSpeed(drone);
groundSpeed = Math.sqrt(
Math.pow(drone.getAirSpeed(), 2) - Math.pow(verticalSpeed, 2)
);
distance = (groundSpeed * delta_time / 1000) / R;
distanceCos = Math.cos(distance);
distanceSin = Math.sin(distance);
horizontalCoeff = Math.sqrt( newLatRad = Math.asin(
( currentSinLat * distanceCos +
Math.pow(drone.getAirSpeed(), 2) - Math.pow(newY, 2) currentCosLat * distanceSin * Math.cos(newYawRad)
) / (
Math.pow(newX, 2) + Math.pow(newZ, 2)
)
); );
newX *= horizontalCoeff; newLonRad = currentLonRad + Math.atan2(
newZ *= horizontalCoeff; Math.sin(newYawRad) * distanceSin * currentCosLat,
distanceCos - currentSinLat * Math.sin(newLatRad)
);
newCoordinates = this._mapManager.convertToLocalCoordinates(
this._toDeg(newLatRad),
this._toDeg(newLonRad),
drone.position.z
);
// swap y and z axis so z axis represents altitude // swap y and z axis so z axis represents altitude
drone.setDirection(newX, newZ, newY); drone._controlMesh.position.addInPlace(new BABYLON.Vector3(
Math.abs(newCoordinates.x - drone.position.x) *
(newCoordinates.x < drone.position.x ? -1 : 1),
verticalSpeed * delta_time / 1000,
Math.abs(newCoordinates.y - drone.position.y) *
(newCoordinates.y < drone.position.y ? -1 : 1)
));
yawToDirection = this._toRad(-newYaw + 90);
drone.setDirection(
groundSpeed * Math.cos(yawToDirection),
groundSpeed * Math.sin(yawToDirection),
verticalSpeed
);
}; };
FixedWingDroneAPI.prototype._getNewYaw = function (drone, delta_time) { FixedWingDroneAPI.prototype._getNewYaw =
function (drone, bearing, delta_time) {
// swap y and z axis so z axis represents altitude // swap y and z axis so z axis represents altitude
var bearing = this._computeBearing( var yaw = drone.getYaw(),
drone.position.x,
drone.position.y,
drone._targetCoordinates.x,
drone._targetCoordinates.y
),
yaw = drone.getYaw(),
yawDiff = this._computeYawDiff(yaw, bearing), yawDiff = this._computeYawDiff(yaw, bearing),
yawUpdate = this.getYawVelocity(drone) * delta_time / 1000; yawUpdate = this.getYawVelocity(drone) * delta_time / 1000;
...@@ -233,14 +272,10 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -233,14 +272,10 @@ var FixedWingDroneAPI = /** @class */ (function () {
} else if (yawDiff < 0) { } else if (yawDiff < 0) {
yawUpdate *= -1; yawUpdate *= -1;
} }
yaw += yawUpdate; return yaw + yawUpdate;
// trigonometric circle is east oriented, yaw angle is clockwise
yaw = this._toRad(-yaw + 90);
return [Math.cos(yaw), Math.sin(yaw)];
}; };
FixedWingDroneAPI.prototype._getNewAltitude = function (drone) { FixedWingDroneAPI.prototype._getVerticalSpeed = function (drone) {
// swap y and z axis so z axis represents altitude // swap y and z axis so z axis represents altitude
var altitudeDiff = drone._targetCoordinates.z - drone.position.z, var altitudeDiff = drone._targetCoordinates.z - drone.position.z,
verticalSpeed; verticalSpeed;
...@@ -356,20 +391,16 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -356,20 +391,16 @@ var FixedWingDroneAPI = /** @class */ (function () {
if (isNaN(lat) || isNaN(lon) || isNaN(z)) { if (isNaN(lat) || isNaN(lon) || isNaN(z)) {
throw new Error('Target coordinates must be numbers'); throw new Error('Target coordinates must be numbers');
} }
var point = this._mapManager.toLocalCoordinates(lat, lon, var processed_coordinates =
this._map_dict.map_size), this._mapManager.convertToLocalCoordinates(lat, lon, z);
position = this._mapManager.normalize(point.x, point.y, this._map_dict); if (processed_coordinates.z > this._map_dict.start_AMSL) {
if (z > this._map_dict.start_AMSL) { processed_coordinates.z -= this._map_dict.start_AMSL;
z -= this._map_dict.start_AMSL;
} }
return { return processed_coordinates;
x: position[0],
y: position[1],
z: z
};
}; };
FixedWingDroneAPI.prototype.getCurrentPosition = function (x, y, z) { FixedWingDroneAPI.prototype.getCurrentPosition = function (x, y, z) {
return this._mapManager.convertToGeoCoordinates(x, y, z, this._map_dict); return this._mapManager.convertToGeoCoordinates(x, y, z);
}; };
FixedWingDroneAPI.prototype.getDroneViewInfo = function (drone) { FixedWingDroneAPI.prototype.getDroneViewInfo = function (drone) {
var context = this, result = { "obstacles": [], "drones": [] }, distance, var context = this, result = { "obstacles": [], "drones": [] }, distance,
...@@ -455,10 +486,17 @@ var FixedWingDroneAPI = /** @class */ (function () { ...@@ -455,10 +486,17 @@ var FixedWingDroneAPI = /** @class */ (function () {
}; };
FixedWingDroneAPI.prototype.getYaw = function (drone) { FixedWingDroneAPI.prototype.getYaw = function (drone) {
var direction = drone.worldDirection; var direction = drone.worldDirection;
return this._computeBearing(0, 0, direction.x, direction.z); return this._toDeg(Math.atan2(direction.x, direction.z));
}; };
FixedWingDroneAPI.prototype._computeBearing = function (x1, z1, x2, z2) { FixedWingDroneAPI.prototype._computeBearing =
return this._toDeg(Math.atan2(x2 - x1, z2 - z1)); function (lat1, lon1, lat2, lon2) {
var dLon = this._toRad(lon2 - lon1),
lat1Rad = this._toRad(lat1),
lat2Rad = this._toRad(lat2),
x = Math.cos(lat2Rad) * Math.sin(dLon),
y = Math.cos(lat1Rad) * Math.sin(lat2Rad) -
Math.sin(lat1Rad) * Math.cos(lat2Rad) * Math.cos(dLon);
return this._toDeg(Math.atan2(x, y));
}; };
FixedWingDroneAPI.prototype._computeYawDiff = function (yaw1, yaw2) { FixedWingDroneAPI.prototype._computeYawDiff = function (yaw1, yaw2) {
var diff = yaw2 - yaw1; var diff = yaw2 - yaw1;
......
...@@ -246,7 +246,7 @@ ...@@ -246,7 +246,7 @@
</item> </item>
<item> <item>
<key> <string>serial</string> </key> <key> <string>serial</string> </key>
<value> <string>1010.5034.64121.33006</string> </value> <value> <string>1010.22181.14558.58982</string> </value>
</item> </item>
<item> <item>
<key> <string>state</string> </key> <key> <string>state</string> </key>
...@@ -266,7 +266,7 @@ ...@@ -266,7 +266,7 @@
</tuple> </tuple>
<state> <state>
<tuple> <tuple>
<float>1690565260.64</float> <float>1691593350.04</float>
<string>UTC</string> <string>UTC</string>
</tuple> </tuple>
</state> </state>
......
...@@ -408,70 +408,15 @@ var DroneManager = /** @class */ (function () { ...@@ -408,70 +408,15 @@ var DroneManager = /** @class */ (function () {
var MapManager = /** @class */ (function () { var MapManager = /** @class */ (function () {
"use strict"; "use strict";
//random geo-point: var EPSILON = 9.9,
var MIN_LAT = 45.64,
MIN_LON = 14.253,
EPSILON = 9.9,
START_Z = 15, START_Z = 15,
R = 6371e3; R = 6371e3;
function calculateMapInfo(map, map_dict) {
var min_lat = map_dict.min_lat || MIN_LAT,
min_lon = map_dict.min_lon || MIN_LON,
offset = map.latLonOffset(min_lat, min_lon, map_dict.map_size),
max_lat = offset[0],
max_lon = offset[1],
starting_point = map_dict.map_size / 2 * -0.75,
local_min = map.toLocalCoordinates(min_lat, min_lon, map_dict.map_size),
local_max = map.toLocalCoordinates(max_lat, max_lon, map_dict.map_size);
map.map_info = {
"depth": map_dict.map_size,
"width": map_dict.map_size,
"map_size": map_dict.map_size,
"min_lat": min_lat,
"min_lon": min_lon,
"max_lat": max_lat,
"max_lon": max_lon,
"min_x": local_min.x,
"min_y": local_min.y,
"max_x": local_max.x,
"max_y": local_max.y,
"height": map_dict.height,
"start_AMSL": map_dict.start_AMSL,
"flag_list": map_dict.flag_list,
"geo_flag_list": [],
"flag_distance_epsilon": map_dict.flag_distance_epsilon || EPSILON,
"obstacle_list": map_dict.obstacle_list,
"geo_obstacle_list": [],
"initial_position": {
"x": 0,
"y": starting_point,
"z": START_Z
}
};
map_dict.flag_list.forEach(function (flag_info, index) {
map.map_info.geo_flag_list.push(map.convertToGeoCoordinates(
flag_info.position.x,
flag_info.position.y,
flag_info.position.z
));
});
map_dict.obstacle_list.forEach(function (obstacle_info, index) {
var geo_obstacle = {};
Object.assign(geo_obstacle, obstacle_info);
geo_obstacle.position = map.convertToGeoCoordinates(
obstacle_info.position.x,
obstacle_info.position.y,
obstacle_info.position.z
);
map.map_info.geo_obstacle_list.push(geo_obstacle);
});
}
//** CONSTRUCTOR //** CONSTRUCTOR
function MapManager(scene) { function MapManager(scene) {
var _this = this, max_sky, skybox, skyboxMat, largeGroundMat, flag_material, var _this = this, max_sky, skybox, skyboxMat, largeGroundMat, flag_material,
largeGroundBottom, width, depth, terrain, max, flag_a, flag_b, mast, flag, largeGroundBottom, width, depth, terrain, max, flag_a, flag_b, mast, flag,
count = 0, new_obstacle; count = 0, new_obstacle;
calculateMapInfo(_this, GAMEPARAMETERS.map); this.setMapInfo(GAMEPARAMETERS.map, GAMEPARAMETERS.initialPosition);
max = _this.map_info.width; max = _this.map_info.width;
if (_this.map_info.depth > max) { if (_this.map_info.depth > max) {
max = _this.map_info.depth; max = _this.map_info.depth;
...@@ -612,22 +557,74 @@ var MapManager = /** @class */ (function () { ...@@ -612,22 +557,74 @@ var MapManager = /** @class */ (function () {
_this._flag_list.push(flag); _this._flag_list.push(flag);
}); });
} }
MapManager.prototype.setMapInfo = function (map_dict, initial_position) {
var max_width = this.latLonDistance([map_dict.min_lat, map_dict.min_lon],
[map_dict.min_lat, map_dict.max_lon]),
max_height = this.latLonDistance([map_dict.min_lat, map_dict.min_lon],
[map_dict.max_lat, map_dict.min_lon]),
map_size = Math.ceil(Math.max(max_width, max_height)),
starting_point = map_size / 2 * -0.75;
console.log("max_width:",max_width);
console.log("max_height:",max_height);
console.log("map_size:",map_size);
this.map_info = {
"depth": map_size,
"height": map_dict.height,
"width": map_size,
"map_size": map_size,
"start_AMSL": map_dict.start_AMSL,
"flag_list": map_dict.flag_list,
"geo_flag_list": [],
"flag_distance_epsilon": map_dict.flag_distance_epsilon || EPSILON,
"obstacle_list": map_dict.obstacle_list,
"geo_obstacle_list": [],
"initial_position": {
"x": 0,
"y": starting_point,
"z": START_Z
}
};
this.map_info.min_x = this.longitudToX(map_dict.min_lon);
this.map_info.min_y = this.latitudeToY(map_dict.min_lat);
this.map_info.max_x = this.longitudToX(map_dict.max_lon);
this.map_info.max_y = this.latitudeToY(map_dict.max_lat);
var map = this;
map_dict.flag_list.forEach(function (flag_info, index) {
map.map_info.geo_flag_list.push(map.convertToGeoCoordinates(
flag_info.position.x,
flag_info.position.y,
flag_info.position.z
));
});
map_dict.obstacle_list.forEach(function (obstacle_info, index) {
var geo_obstacle = {};
Object.assign(geo_obstacle, obstacle_info);
geo_obstacle.position = map.convertToGeoCoordinates(
obstacle_info.position.x,
obstacle_info.position.y,
obstacle_info.position.z
);
map.map_info.geo_obstacle_list.push(geo_obstacle);
});
};
MapManager.prototype.getMapInfo = function () { MapManager.prototype.getMapInfo = function () {
return this.map_info; return this.map_info;
}; };
MapManager.prototype.latLonOffset = function (lat, lon, offset_in_mt) { MapManager.prototype.longitudToX = function (lon) {
return (this.map_info.map_size / 360.0) * (180 + lon);
};
MapManager.prototype.latitudeToY = function (lat) {
return (this.map_info.map_size / 180.0) * (90 - lat);
};
//TODO refactor latLonOffset, should be the reverse of lat-lon distance
//then map_size can be used as parameter (get max lat-lon from map_size)
/*MapManager.prototype.latLonOffset = function (lat, lon, offset_in_mt) {
var R = 6371e3, //Earth radius var R = 6371e3, //Earth radius
lat_offset = offset_in_mt / R, lat_offset = offset_in_mt / R,
lon_offset = offset_in_mt / (R * Math.cos(Math.PI * lat / 180)); lon_offset = offset_in_mt / (R * Math.cos(Math.PI * lat / 180));
return [lat + lat_offset * 180 / Math.PI, return [lat + lat_offset * 180 / Math.PI,
lon + lon_offset * 180 / Math.PI]; lon + lon_offset * 180 / Math.PI];
}; };*/
MapManager.prototype.toLocalCoordinates = function (lat, lon, map_size) {
return {
"x": (map_size / 360.0) * (180 + lon),
"y": (map_size / 180.0) * (90 - lat)
};
};
MapManager.prototype.latLonDistance = function (c1, c2) { MapManager.prototype.latLonDistance = function (c1, c2) {
var q1 = c1[0] * Math.PI / 180, var q1 = c1[0] * Math.PI / 180,
q2 = c2[0] * Math.PI / 180, q2 = c2[0] * Math.PI / 180,
...@@ -639,24 +636,30 @@ var MapManager = /** @class */ (function () { ...@@ -639,24 +636,30 @@ var MapManager = /** @class */ (function () {
c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a)); c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));
return R * c; return R * c;
}; };
MapManager.prototype.normalize = function (x, y, map_dict) { MapManager.prototype.convertToLocalCoordinates =
var n_x = (x - map_dict.min_x) / (map_dict.max_x - map_dict.min_x), function (latitude, longitude, altitude) {
n_y = (y - map_dict.min_y) / (map_dict.max_y - map_dict.min_y); var map_info = this.map_info,
return [n_x * 1000 - map_dict.width / 2, x = this.longitudToX(longitude),
n_y * 1000 - map_dict.depth / 2]; y = this.latitudeToY(latitude);
return {
x: ((x - map_info.min_x) / (map_info.max_x - map_info.min_x)) *
1000 - map_info.width / 2,
y: ((y - map_info.min_y) / (map_info.max_y - map_info.min_y)) *
1000 - map_info.depth / 2,
z: altitude
};
}; };
MapManager.prototype.convertToGeoCoordinates = function (x, y, z) { MapManager.prototype.convertToGeoCoordinates = function (x, y, z) {
var map_dict = this.map_info, var lon = x + this.map_info.width / 2,
lon = x + map_dict.width / 2, lat = y + this.map_info.depth / 2;
lat = y + map_dict.depth / 2;
lon = lon / 1000; lon = lon / 1000;
lon = lon * (map_dict.max_x - map_dict.min_x) + lon = lon * (this.map_info.max_x - this.map_info.min_x) +
map_dict.min_x; this.map_info.min_x;
lon = lon / (map_dict.width / 360.0) - 180; lon = lon / (this.map_info.map_size / 360.0) - 180;
lat = lat / 1000; lat = lat / 1000;
lat = lat * (map_dict.max_y - map_dict.min_y) + lat = lat * (this.map_info.max_y - this.map_info.min_y) +
map_dict.min_y; this.map_info.min_y;
lat = 90 - lat / (map_dict.depth / 180.0); lat = 90 - lat / (this.map_info.map_size / 180.0);
return { return {
x: lat, x: lat,
y: lon, y: lon,
...@@ -676,7 +679,7 @@ var GameManager = /** @class */ (function () { ...@@ -676,7 +679,7 @@ var GameManager = /** @class */ (function () {
"use strict"; "use strict";
// *** CONSTRUCTOR *** // *** CONSTRUCTOR ***
function GameManager(canvas, game_parameters_json) { function GameManager(canvas, game_parameters_json) {
var drone, header_list, drone_count; var drone, header_list, drone_count, i;
this._canvas = canvas; this._canvas = canvas;
this._canvas_width = canvas.width; this._canvas_width = canvas.width;
this._canvas_height = canvas.height; this._canvas_height = canvas.height;
...@@ -737,7 +740,7 @@ var GameManager = /** @class */ (function () { ...@@ -737,7 +740,7 @@ var GameManager = /** @class */ (function () {
console.log = function () { console.log = function () {
baseLogFunction.apply(console, arguments); baseLogFunction.apply(console, arguments);
var args = Array.prototype.slice.call(arguments); var args = Array.prototype.slice.call(arguments);
for (var i = 0;i < args.length;i++) { for (i = 0;i < args.length;i++) {
console_log += args[i] + "\n"; console_log += args[i] + "\n";
} }
}; };
......
...@@ -246,7 +246,7 @@ ...@@ -246,7 +246,7 @@
</item> </item>
<item> <item>
<key> <string>serial</string> </key> <key> <string>serial</string> </key>
<value> <string>1010.5086.1058.34440</string> </value> <value> <string>1010.22324.3760.41318</string> </value>
</item> </item>
<item> <item>
<key> <string>state</string> </key> <key> <string>state</string> </key>
...@@ -266,7 +266,7 @@ ...@@ -266,7 +266,7 @@
</tuple> </tuple>
<state> <state>
<tuple> <tuple>
<float>1690567567.2</float> <float>1691601869.17</float>
<string>UTC</string> <string>UTC</string>
</tuple> </tuple>
</state> </state>
......
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margin: 10px 0;
font-family: monospace;
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.documentation .item-param-1,
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background-color: #F8F8F8;
padding: 8px;
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width: 100%;
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background-color: lightgrey;
margin: 30px 0; }
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"use strict";
rJS(window)
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var gadget = this;
return gadget.getUrlFor({'command': 'history_previous'})
.push(function (url) {
return gadget.updateHeader({
page_title: "Drone API Documentation",
selection_url: url
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}(window, rJS));
...@@ -156,11 +156,13 @@ ...@@ -156,11 +156,13 @@
.push(function () { .push(function () {
return RSVP.hash({ return RSVP.hash({
url_list: gadget.getUrlForList([ url_list: gadget.getUrlForList([
{command: 'display', options: {page: "drone_capture_flag_script_page"}} {command: 'display', options: {page: "drone_capture_flag_script_page"}},
{command: 'display', options: {page: "drone_capture_flag_api_page"}}
]), ]),
translation_list: gadget.getTranslationList([ translation_list: gadget.getTranslationList([
'Editable', 'Editable',
'Run Game' 'Run Game',
'API documentation'
]) ])
}); });
}) })
...@@ -168,7 +170,8 @@ ...@@ -168,7 +170,8 @@
var editable_value = [], var editable_value = [],
element_list = [], element_list = [],
icon_and_key_list = [ icon_and_key_list = [
'puzzle-piece', null 'puzzle-piece', null,
'paperclip', null
]; ];
for (i = 0; i < result_dict.url_list.length; i += 1) { for (i = 0; i < result_dict.url_list.length; i += 1) {
......
...@@ -256,7 +256,7 @@ ...@@ -256,7 +256,7 @@
</tuple> </tuple>
<state> <state>
<tuple> <tuple>
<float>1682444688.11</float> <float>1691175603.36</float>
<string>UTC</string> <string>UTC</string>
</tuple> </tuple>
</state> </state>
......
...@@ -6,7 +6,16 @@ ...@@ -6,7 +6,16 @@
//Drone default values - TODO: get them from the drone API //Drone default values - TODO: get them from the drone API
var SIMULATION_SPEED = 10, var SIMULATION_SPEED = 10,
SIMULATION_TIME = 270, SIMULATION_TIME = 270,
MAP_SIZE = 600, //HARDCODED map size: it is defined by min-max lat-lon distance
//this is done by the map manager (latLonDistance)
//but map_size is needed here for map randomization (location of objects)
//TODO refactor: or randomization is moved to map manager (seed as param)
//or randomization is done here but with geo-coordinates (not meters)
MAP_SIZE = 902,
min_lat = 45.6475,
max_lat = 45.65,
min_lon = 14.265,
max_lon = 14.2766,
map_height = 700, map_height = 700,
start_AMSL = 595, start_AMSL = 595,
DEFAULT_SPEED = 16, DEFAULT_SPEED = 16,
...@@ -291,7 +300,7 @@ ...@@ -291,7 +300,7 @@
"hidden": 0, "hidden": 0,
"type": "FloatField" "type": "FloatField"
}, },
"my_map_size": { /*"my_map_size": {
"description": "", "description": "",
"title": "Map size", "title": "Map size",
"default": MAP_SIZE, "default": MAP_SIZE,
...@@ -301,7 +310,7 @@ ...@@ -301,7 +310,7 @@
"key": "map_size", "key": "map_size",
"hidden": 0, "hidden": 0,
"type": "FloatField" "type": "FloatField"
}, },*/
"my_start_AMSL": { "my_start_AMSL": {
"description": "", "description": "",
"title": "Start AMSL", "title": "Start AMSL",
...@@ -380,7 +389,7 @@ ...@@ -380,7 +389,7 @@
group_list: [[ group_list: [[
"left", "left",
[["my_simulation_speed"], ["my_simulation_time"], ["my_number_of_drones"], [["my_simulation_speed"], ["my_simulation_time"], ["my_number_of_drones"],
["my_map_size"], ["my_map_height"],// ["my_flag_weight"], /*["my_map_size"], */["my_map_height"],// ["my_flag_weight"],
["my_start_AMSL"], ["my_map_seed"]] ["my_start_AMSL"], ["my_map_seed"]]
], [ ], [
"right", "right",
...@@ -407,6 +416,7 @@ ...@@ -407,6 +416,7 @@
var gadget = this, i, var gadget = this, i,
fragment = gadget.element.querySelector('.simulator_div'), fragment = gadget.element.querySelector('.simulator_div'),
game_parameters_json, map_json; game_parameters_json, map_json;
options.map_size = MAP_SIZE;
DRONE_LIST = []; DRONE_LIST = [];
fragment = domsugar(gadget.element.querySelector('.simulator_div'), fragment = domsugar(gadget.element.querySelector('.simulator_div'),
[domsugar('div')]).firstElementChild; [domsugar('div')]).firstElementChild;
...@@ -429,8 +439,7 @@ ...@@ -429,8 +439,7 @@
var seed_value = options.map_seed, var seed_value = options.map_seed,
random_seed = new Math.seedrandom(seed_value), i, random_seed = new Math.seedrandom(seed_value), i,
n_enemies = randomIntFromInterval(5, 10, random_seed), n_enemies = randomIntFromInterval(5, 10, random_seed),
n_flags = randomIntFromInterval(Math.floor(DRONE_LIST.length / 2), n_flags = randomIntFromInterval(5, 10, random_seed),
DRONE_LIST.length, random_seed),
n_obstacles = randomIntFromInterval(5, 15, random_seed), n_obstacles = randomIntFromInterval(5, 15, random_seed),
flag_list = [], obstacle_list = [], enemy_list = [], random_position, flag_list = [], obstacle_list = [], enemy_list = [], random_position,
obstacles_types = ["box"/*, "sphere"*/, "cylinder"], type, obstacles_types = ["box"/*, "sphere"*/, "cylinder"], type,
...@@ -511,6 +520,10 @@ ...@@ -511,6 +520,10 @@
"map_size": parseFloat(options.map_size), "map_size": parseFloat(options.map_size),
"height": parseInt(options.map_height, 10), "height": parseInt(options.map_height, 10),
"start_AMSL": parseFloat(options.start_AMSL), "start_AMSL": parseFloat(options.start_AMSL),
"min_lat": parseFloat(min_lat),
"max_lat": parseFloat(max_lat),
"min_lon": parseFloat(min_lon),
"max_lon": parseFloat(max_lon),
"flag_list": [], "flag_list": [],
"obstacle_list" : [], "obstacle_list" : [],
"drones": { "drones": {
......
...@@ -246,7 +246,7 @@ ...@@ -246,7 +246,7 @@
</item> </item>
<item> <item>
<key> <string>serial</string> </key> <key> <string>serial</string> </key>
<value> <string>1009.57725.14056.1911</string> </value> <value> <string>1010.22334.20227.40840</string> </value>
</item> </item>
<item> <item>
<key> <string>state</string> </key> <key> <string>state</string> </key>
...@@ -266,7 +266,7 @@ ...@@ -266,7 +266,7 @@
</tuple> </tuple>
<state> <state>
<tuple> <tuple>
<float>1689793877.59</float> <float>1691602475.06</float>
<string>UTC</string> <string>UTC</string>
</tuple> </tuple>
</state> </state>
......
...@@ -8,6 +8,9 @@ url_list = [ ...@@ -8,6 +8,9 @@ url_list = [
"gadget_erp5_panel_drone_capture_flag.js", "gadget_erp5_panel_drone_capture_flag.js",
"gadget_erp5_page_drone_capture_flag_fixedwingdrone.js", "gadget_erp5_page_drone_capture_flag_fixedwingdrone.js",
"gadget_erp5_page_drone_capture_flag_enemydrone.js", "gadget_erp5_page_drone_capture_flag_enemydrone.js",
"gadget_erp5_page_drone_capture_flag_api_page.html",
"gadget_erp5_page_drone_capture_flag_api_page.js",
"gadget_erp5_page_drone_capture_flag_api_page.css",
"assets/map/terrain.jpg", "assets/map/terrain.jpg",
"assets/map/map.babylon", "assets/map/map.babylon",
"assets/drone/drone.babylon", "assets/drone/drone.babylon",
......
...@@ -5,7 +5,11 @@ ...@@ -5,7 +5,11 @@
var SIMULATION_SPEED = 10, var SIMULATION_SPEED = 10,
SIMULATION_TIME = 270, SIMULATION_TIME = 270,
MAP_SIZE = 600, MAP_SIZE = 1905,
min_lat = 45.6364,
max_lat = 45.65,
min_lon = 14.2521,
max_lon = 14.2766,
map_height = 700, map_height = 700,
start_AMSL = 595, start_AMSL = 595,
DEFAULT_SPEED = 16, DEFAULT_SPEED = 16,
...@@ -109,6 +113,10 @@ ...@@ -109,6 +113,10 @@
"map_size": parseFloat(MAP_SIZE), "map_size": parseFloat(MAP_SIZE),
"height": parseInt(map_height, 10), "height": parseInt(map_height, 10),
"start_AMSL": parseFloat(start_AMSL), "start_AMSL": parseFloat(start_AMSL),
"min_lat": parseFloat(min_lat),
"max_lat": parseFloat(max_lat),
"min_lon": parseFloat(min_lon),
"max_lon": parseFloat(max_lon),
"flag_list": [{ "flag_list": [{
"position": { "position": {
"x": -27, "x": -27,
......
...@@ -246,7 +246,7 @@ ...@@ -246,7 +246,7 @@
</item> </item>
<item> <item>
<key> <string>serial</string> </key> <key> <string>serial</string> </key>
<value> <string>1010.10600.362.51182</string> </value> <value> <string>1010.22211.26359.65484</string> </value>
</item> </item>
<item> <item>
<key> <string>state</string> </key> <key> <string>state</string> </key>
...@@ -266,7 +266,7 @@ ...@@ -266,7 +266,7 @@
</tuple> </tuple>
<state> <state>
<tuple> <tuple>
<float>1690983490.56</float> <float>1691595104.74</float>
<string>UTC</string> <string>UTC</string>
</tuple> </tuple>
</state> </state>
......
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