private void CheckCollisions() { var meteors = _entityManager.Entities.Where(e => e is Meteor).Cast <Meteor>().ToArray(); var lasers = _entityManager.Entities.Where(e => e is Laser).Cast <Laser>().ToArray(); foreach (var meteor in meteors) { if (_player != null && !_player.IsDestroyed && _player.BoundingCircle.Intersects(meteor.BoundingCircle)) { Explode(meteor.Position, meteor.Size); Explode(_player.Position, 3); _player.Destroy(); _player = null; meteor.Destroy(); } foreach (var laser in lasers.Where(laser => meteor.Contains(laser.Position))) { meteor.Damage(1); laser.Destroy(); _score++; Explode(laser.Position, meteor.Size); if (meteor.Size >= 2) { _meteorFactory.SplitMeteor(meteor); } } if (_player != null && _player.ShieldHealth > 0 && meteor.BoundingCircle.Intersects(new CircleF(_player.Position, _player.ShieldRadius))) { _player.HitShield(); Explode(meteor.Position, meteor.Size); meteor.Destroy(); } } }
protected override void LoadContent() { _viewportAdapter = new BoxingViewportAdapter(Window, GraphicsDevice, 800, 480); _camera = new Camera2D(_viewportAdapter); _spriteBatch = new SpriteBatch(GraphicsDevice); var workingFolder = Directory.GetCurrentDirectory(); _backgroundTexture = Content.Load <Texture2D>("black"); var bulletTexture = Content.Load <Texture2D>("laserBlue03"); var bulletRegion = new TextureRegion2D(bulletTexture); var bulletFactory = new BulletFactory(_entityManager, bulletRegion); var spaceshipTexture = Content.Load <Texture2D>("playerShip1_blue"); var spaceshipRegion = new TextureRegion2D(spaceshipTexture); _player = _entityManager.AddEntity(new Spaceship(spaceshipRegion, bulletFactory)); var meteorTexture = Content.Load <Texture2D>("meteorBrown_big1"); var meteorRegion = new TextureRegion2D(meteorTexture); for (var i = 0; i < 5; i++) { var x = _random.Next(2) == 0 ? 1 : -1; var y = _random.Next(2) == 0 ? 1 : -1; var velocity = new Vector2(x, y) * 10f; var meteor = new Meteor(meteorRegion, velocity) { Position = new Vector2(100, 100) }; _entityManager.AddEntity(meteor); } }
public String Shoot(double polarAngle, double scanAngle, int energy, String attackCode) { string bigoutput = ""; if (this.Energy < energy) { Console.WriteLine("You do not have enough energy to shoot"); return(null); } this.Energy -= energy; // cordinates of the spaceship // cordinates of the spaceship double x = this.XCoordinate; double y = this.YCoordinate; int r = this.Capacity / 100; ArrayList list = new ArrayList(); int dist = (int)Math.Round(energy / Math.Abs(Math.Sin((Math.PI - scanAngle) / 2 * Math.PI / 180.0)), 0); double xA = Math.Round(x + r * Math.Cos(polarAngle * Math.PI / 180.0), 2); double yA = Math.Round(y + r * Math.Sin(polarAngle * Math.PI / 180.0), 2); // B and C are points of the scan extremes double xB = Math.Round(xA + dist * Math.Cos((polarAngle - scanAngle * 0.5) * Math.PI / 180.0), 2); double yB = Math.Round(yA + dist * Math.Sin((polarAngle - scanAngle * 0.5) * Math.PI / 180.0), 2); double xC = Math.Round(xA + dist * Math.Cos((polarAngle + scanAngle * 0.5) * Math.PI / 180.0), 2); double yC = Math.Round(yA + dist * Math.Sin((polarAngle + scanAngle * 0.5) * Math.PI / 180.0), 2); Point a, b, c; a = new Point(xA, yA); b = new Point(xB, yB); c = new Point(xC, yC); // get a list of the planets and spacehsips // check if they are inside the triangle ABC // or if the sides of the triangle cu the spaceships (as a circle) var dict = this.SpaceshipsInsideWithShadow(a, b, c); foreach (KeyValuePair <Spaceship, double> kvp in dict) { Console.WriteLine("You attacked " + ((Spaceship)(kvp.Key)).Name + " with ratio " + kvp.Value); } foreach (KeyValuePair <Spaceship, double> kvp in dict) { Console.WriteLine("You attacked " + ((Spaceship)(kvp.Key)).Name + " with ratio " + kvp.Value); Spaceship ship = kvp.Key; list.Add(ship); double x_coord = ship.XCoordinate; double y_coord = ship.YCoordinate; int other_radius = ship.Capacity / 100; double ratio; // ratio of the energy with which we are attacking // if the spaceship is inside the shoot array' if (GameMaths.IsInside(a, b, c, new Point(x_coord, y_coord))) { // B'C' is parallel to BC, we need the the slope and the other spaceship coordinates to find the equation and distance of B'C' double slope = (yB - yC) / (xB - xC); // find an equation of the type y = slope * x + b_ // aim: find out another point on B'C' double b_ = y_coord - slope * x_coord; double x_new_point = 1; // random, doesn't matter double y_new_point = slope * x_new_point + b_; Point b_prime = GameMaths.LineIntersection(a, b, new Point(x_coord, y_coord), new Point(x_new_point, y_new_point)); Point c_prime = GameMaths.LineIntersection(a, c, new Point(x_coord, y_coord), new Point(x_new_point, y_new_point)); double dist_b_c_prime = GameMaths.Distance2Points(b_prime, c_prime); // multiple cases depending on where the spaceship lies on the line if (GameMaths.DistanceToLine(GameMaths.LineEquation(a, b), x_coord, y_coord) < other_radius) // other spaceship is closer to AB, and extends outside { double distance_to_ab = GameMaths.DistanceToLine(GameMaths.LineEquation(a, b), x_coord, y_coord); double dist_to_add; double b_o_dist = distance_to_ab * Math.Sin(((Math.PI - scanAngle) / 2) * Math.PI / 180.0); if (dist_b_c_prime - b_o_dist >= other_radius) { dist_to_add = other_radius; } else { dist_to_add = dist_b_c_prime - b_o_dist; } ratio = (dist_to_add + b_o_dist) / dist_b_c_prime; } else if (GameMaths.DistanceToLine(GameMaths.LineEquation(a, c), x_coord, y_coord) < other_radius) { double distance_to_ac = GameMaths.DistanceToLine(GameMaths.LineEquation(a, c), x_coord, y_coord); double dist_to_add; double c_o_dist = distance_to_ac * Math.Sin(((Math.PI - scanAngle) / 2) * Math.PI / 180.0); if (dist_b_c_prime - c_o_dist >= other_radius) { dist_to_add = other_radius; } else { dist_to_add = dist_b_c_prime - c_o_dist; } ratio = (dist_to_add + c_o_dist) / dist_b_c_prime; } else { // spaceship is on the line equally distributed if (2 * other_radius < dist_b_c_prime) { ratio = (2 * other_radius) / dist_b_c_prime; } else { ratio = 1; } } ratio += dict[ship]; ratio /= 2; ratio *= (StringDistance.Compute(ship.Code, attackCode) / 16.0 + 1) / 2.0; bigoutput += this.Attack(ship, (int)(Math.Round((energy * ratio), 0))); } // if the other spacehsip center is outside of the shoot triangle else if (GameMaths.ContainsSpaceship(a, b, c, new Point(x_coord, y_coord), other_radius)) // && this.UserId != ship.UserId) { // B'C' is parallel to BC, we need the the slope and the other spaceship coordinates to find the equation and distance of B'C' double slope = (yB - yC) / (xB - xC); // find an equation of the type y = slope * x + b // aim: find out another point on B'C' double b_ = y_coord - slope * x_coord; double x_new_point = 1; // random, doesn't matter double y_new_point = slope * x_new_point + b_; Point b_prime = GameMaths.LineIntersection(a, b, new Point(x_coord, y_coord), new Point(x_new_point, y_new_point)); Point c_prime = GameMaths.LineIntersection(a, c, new Point(x_coord, y_coord), new Point(x_new_point, y_new_point)); double dist_b_c_prime = GameMaths.Distance2Points(b_prime, c_prime); ratio = (other_radius - GameMaths.SmallestDistance(a, b, c, new Point(x_coord, y_coord), other_radius)) / dist_b_c_prime; ratio += dict[ship]; ratio /= 2; ratio *= (StringDistance.Compute(ship.Code, attackCode) / 16.0 + 1) / 2.0; bigoutput += this.Attack(ship, (int)(Math.Round((energy * ratio), 0))); } } return(bigoutput); }
public String Scan(double polarAngle, double scanAngle, int energy) { String bigoutput = ""; //updateSelf(); // cordinates of the spaceship ArrayList myList = new ArrayList(); if (this._energy >= energy) { double x = this.XCoordinate; double y = this.YCoordinate; int r = this.Capacity / 100; Point a, b, c; int dist = (int)Math.Round(energy / Math.Abs(Math.Sin((Math.PI - scanAngle) / 2 * Math.PI / 180.0)), 0); double xA = Math.Round(x + r * Math.Cos(polarAngle * Math.PI / 180.0), 2); double yA = Math.Round(y + r * Math.Sin(polarAngle * Math.PI / 180.0), 2); // B and C are points of the scan extremes double xB = Math.Round(xA + dist * Math.Cos((polarAngle - scanAngle * 0.5) * Math.PI / 180.0), 2); double yB = Math.Round(yA + dist * Math.Sin((polarAngle - scanAngle * 0.5) * Math.PI / 180.0), 2); double xC = Math.Round(xA + dist * Math.Cos((polarAngle + scanAngle * 0.5) * Math.PI / 180.0), 2); double yC = Math.Round(yA + dist * Math.Sin((polarAngle + scanAngle * 0.5) * Math.PI / 180.0), 2); a = new Point(xA, yA); b = new Point(xB, yB); c = new Point(xC, yC); var dict = this.SpaceshipsInsideWithShadow(a, b, c); foreach (KeyValuePair <Spaceship, double> kvp in dict) { Console.WriteLine(((Spaceship)(kvp.Key)).Name + " with ratio " + kvp.Value); myList.Add(kvp.Key); } /* * Printing as 2D array * */ bool pretty_print = true; if (pretty_print) { int xmax, ymax; xmax = (int)(Math.Max(xC, Math.Max(xA, xB)) - Math.Min(xC, Math.Min(xA, xB))); ymax = (int)(Math.Max(yC, Math.Max(yA, yB)) - Math.Min(yC, Math.Min(yA, yB))); Console.WriteLine(xmax + " " + ymax); int[,] toPrint = new int[xmax, ymax]; for (int i = 0; i < xmax; i++) { for (int j = 0; j < ymax; j++) { toPrint[i, j] = -1; } } Point new_a = new Point(a.x - Math.Min(xC, Math.Min(xA, xB)), a.y - Math.Min(yC, Math.Min(yA, yB))), new_b = new Point(b.x - Math.Min(xC, Math.Min(xA, xB)), b.y - Math.Min(yC, Math.Min(yA, yB))), new_c = new Point(c.x - Math.Min(xC, Math.Min(xA, xB)), c.y - Math.Min(yC, Math.Min(yA, yB))); foreach (KeyValuePair <Spaceship, double> kvp in dict) { Random random = new Random(); Spaceship sp = kvp.Key; double ratio = kvp.Value; int chnum = (int)Math.Ceiling(16 * ratio); Console.WriteLine(sp.code.Substring(0, chnum)); String substring = sp.code.Substring(0, chnum); Point translocated = new Point(sp.XCoordinate - Math.Min(xC, Math.Min(xA, xB)), sp.YCoordinate - Math.Min(yC, Math.Min(yA, yB))); if ((int)translocated.x < xmax && (int)translocated.x >= 0 && (int)translocated.y >= 0 && (int)translocated.y < ymax) { toPrint[(int)translocated.x, (int)translocated.y] = -1; } int stringIndex = 0; int startPoint = -90; Point inter1, inter2; Point[] aux_point_array = GameMaths.CutsSpaceshipAtPoints(a, b, c, new Point(sp.XCoordinate, sp.YCoordinate), sp._capacity / 100); if (aux_point_array != null) { inter1 = aux_point_array[0]; inter2 = aux_point_array[1]; inter1.x += 1; inter1.y += 1; if (GameMaths.IsInside(a, b, c, inter1)) { inter1.x -= 1; inter2.y -= 1; startPoint = (int)((180.0 / Math.PI) * Math.Atan2(inter1.y - sp.XCoordinate, inter1.x - sp.YCoordinate)); Console.WriteLine(startPoint); } else { startPoint = (int)((180.0 / Math.PI) * Math.Atan2(inter2.y - sp.YCoordinate, inter2.x - sp.XCoordinate)); Console.WriteLine(startPoint); } } for (double i = startPoint; i >= startPoint - 360; i -= 0.5) { int xcircle, ycircle; xcircle = (int)(translocated.x + sp._capacity / 100 * Math.Cos(i * Math.PI / 180.0)); ycircle = (int)(translocated.y + sp._capacity / 100 * Math.Sin(i * Math.PI / 180.0)); if (GameMaths.IsInside(new_a, new_b, new_c, new Point(ycircle, xcircle))) { if (xcircle < xmax && xcircle >= 0 && ycircle < ymax && ycircle >= 0 && toPrint[xcircle, ycircle] == -1) { toPrint[xcircle, ycircle] = int.Parse("" + substring[stringIndex % chnum]); stringIndex++; } } } for (int i = ymax - 1; i >= 0; i--) { for (int j = 0; j < xmax; j++) { if (toPrint[j, i] <= 9 && toPrint[j, i] >= 0 && GameMaths.IsInside(new_a, new_b, new_c, new Point(j, i))) { bigoutput += (toPrint[j, i]).ToString(); } else { bigoutput += " "; } } bigoutput += "\n"; } /* * end of printing */ } return(bigoutput); } } return(bigoutput); }
/* * * Helper function to compute the not shadowed spaceships after a scan or attack * * returns a dictionary mapping the spaceship to a real ratio (the relative portion of the spaceship that is visible in the scan, shoot * */ public Dictionary <Spaceship, double> SpaceshipsInsideWithShadow(Point a, Point b, Point c) { Spaceship[] sp = ElasticSearchCommands.searchAll().ToArray(); // double represents the shadows Dictionary <Spaceship, double> list = new Dictionary <Spaceship, double>(); var lines = new ArrayList(); lines.Add(new Line(b, c)); var x = this.XCoordinate; var y = this.YCoordinate; var dict = new SortedDictionary <double, Spaceship>(); for (int i = 0; i < sp.Length; i++) { double x_coord = sp[i].XCoordinate; double y_coord = sp[i].YCoordinate; if ((GameMaths.ContainsSpaceship(a, b, c, new Point(x_coord, y_coord), sp[i].Capacity / 100) || GameMaths.IsInside(a, b, c, new Point(x_coord, y_coord))) && this.Name != sp[i].Name) //&& sp[i].Name!="Owen") { double dist = GameMaths.Distance2Points(new Point(x, y), new Point(x_coord, y_coord)); while (dict.ContainsKey(dist)) { dist += 0.2; } dict.Add(dist, sp[i]); } } // find the true non-shadowed spaceships foreach (KeyValuePair <double, Spaceship> kvp in dict) { Spaceship ship = kvp.Value; Point p1, p2; // projections of the tangents to the circle onto BC line Point[] points = GameMaths.PointsOfTangentToCircle(a, new Point(ship.XCoordinate, ship.YCoordinate), ship.Capacity / 100); p1 = points[0]; p2 = points[1]; // get intersection between AP1 and BC (projection of A on BC through a point tangent to the circle/spaceship) points[0] = GameMaths.LineIntersection(a, points[0], b, c); points[1] = GameMaths.LineIntersection(a, points[1], b, c); Array.Sort(points); p1 = points[0]; p2 = points[1]; if (p1 == null || p2 == null) { continue; } int i = 0, j = 0; Boolean found1 = false; Boolean found2 = false; //find where the projections of the points on BC found would sit on the line BC // the points l1,l2 are looking for where p1 sits // the poiints n1, n2 are looking for where p2 sits // modifications in the intervals is necessary // delete all lines between p1 and p2 while (!(found1 && found2)) { // fetch the ith line if (!found1 && i < lines.Count) { Line line = (Line)lines[i]; Point l1 = line.a, l2 = line.b; if (p1.CompareTo(l1) > 0) { if (p1.CompareTo(l2) < 0) { // l1 < p1 < l2 // found the interval where p1 lies, it is not shadowed, so add the spacehsip found1 = true; // check if p1 and p2 are on the same interval if (p2.CompareTo(l1) > 0 && p2.CompareTo(l2) < 0) { list.Add(ship, GameMaths.Distance2Points(p1, p2)); found2 = true; Point aux = ((Line)lines[i]).b; ((Line)lines[i]).b = p1; lines.Insert(i + 1, new Line(p2, aux)); } else { list.Add(ship, GameMaths.Distance2Points(p1, ((Line)lines[i]).b)); ((Line)lines[i]).b = p1; j = i + 1; } } else { // p1 will sit in the next intervals i++; } } else { // p1 lies in an area outside of the lines array, which means it is shadowed // mark l1 as found, but don't add this spaceship to the scanned ones found1 = true; } } if (!found2 && j < lines.Count) { Line line = (Line)lines[j]; Point n1 = line.a, n2 = line.b; if (p2.CompareTo(n1) > 0) { if (p2.CompareTo(n2) < 0) { // n1 < p2 < n2 // found the interval where p2 lies found2 = true; if (list.ContainsKey(ship)) { list[ship] += GameMaths.Distance2Points(((Line)lines[j]).a, p2); } else { list.Add(ship, GameMaths.Distance2Points(((Line)lines[j]).a, p2)); } // restrict the interval for future lookups ((Line)lines[i]).a = p2; } else { // p2 will sit in the next intervals if (found1) { if (list.ContainsKey(ship)) { list[ship] += GameMaths.Distance2Points(((Line)lines[j]).a, ((Line)lines[j]).b); } else { list.Add(ship, GameMaths.Distance2Points(((Line)lines[j]).a, ((Line)lines[j]).b)); } lines.RemoveAt(j); // delete all intervals in between p1 and p2 } else { j++; } } } else { // p2 lies in an area outside of the lines array, which means it is shadowed // mark l1 as found, but don't add this spaceship to the scanned ones found2 = true; } } if (i >= lines.Count) { found1 = true; } if (j >= lines.Count) { found2 = true; } } if (list.ContainsKey(ship)) { list[ship] = list[ship] / GameMaths.Distance2Points(p1, p2); } } return(list); }
public static void updateUser(Spaceship ship) { var client = create_lowlevelclient(); var ndexResponse = client.Index <BytesResponse>("spaceships", ship.UserId, PostData.Serializable(ship)); }