private SpaceShip GetNearestEnemy(SpaceShip origin)
        {
            SpaceShip closestShip = null;
            float     closest     = int.MaxValue;

            for (int k = 0; k < FrameworkCore.level.Ships.Count; k++)
            {
                //filter out non-ships.
                if (!Helpers.IsSpaceship(FrameworkCore.level.Ships[k]) ||
                    FrameworkCore.level.Ships[k].IsDestroyed ||
                    FrameworkCore.level.Ships[k].owner.factionName == origin.owner.factionName)
                {
                    continue;
                }

                //get handle on NPC ship.
                SpaceShip NPCShip = (SpaceShip)FrameworkCore.level.Ships[k];

                float curDist = Vector3.Distance(origin.Position, NPCShip.Position);

                if (curDist < closest)
                {
                    curDist     = closest;
                    closestShip = NPCShip;
                }
            }

            return(closestShip);
        }
        private void CommitMoveOrder(SpaceShip origin, SpaceShip enemyShip, Vector3 roundEndPos)
        {
            //from the end-of-round position, rotate ship to look at the enemy.
            Matrix lookAt = Matrix.CreateLookAt(roundEndPos, enemyShip.Position, Vector3.Up);

            //determine if ship should roll.
            float frontDot = Helpers.GetDot(roundEndPos, enemyShip.Position, lookAt.Up);

            if (frontDot < 0)
            {
                lookAt = Matrix.CreateLookAt(roundEndPos, enemyShip.Position, Vector3.Down);
            }


            Quaternion quatRot = Quaternion.CreateFromRotationMatrix(Matrix.Invert(lookAt));

            //tilt nose down a little bit.
            quatRot *= Quaternion.CreateFromAxisAngle(Vector3.Up, 0)
                       * Quaternion.CreateFromAxisAngle(Vector3.Right, Helpers.randFloat(-0.6f, -0.3f))
                       * Quaternion.CreateFromAxisAngle(Vector3.Backward, 0);


            //Generate position of ship.
            origin.SetTargetMove(roundEndPos, quatRot);
        }
        public SpaceShooterGame()
        {
            graphics = new GraphicsDeviceManager(this);
            Content.RootDirectory = "Content";

            graphics.PreferredBackBufferHeight  = 720;
            graphics.PreferredBackBufferWidth   = 1280;
            graphics.MinimumPixelShaderProfile  = ShaderProfile.PS_2_0;
            graphics.MinimumVertexShaderProfile = ShaderProfile.VS_2_0;

            chaseCamera = new ChaseCamera(this);

            particles        = new ParticleManager(this);
            particles.Camera = chaseCamera;
            Components.Add(particles);

            playerShip = new PlayerShip(this, particles);

            enemyShip = new SpaceShip(this, particles);

            boltManager = new BoltManager(this, particles);

            skyBox         = new SkyBox(this);
            skyBox.Visible = false;
            Components.Add(skyBox);

            earth = new Planet(this);
            air   = new Atmosphere(this);
            sun   = new Sun(this);

            motionField = new MotionField(this);

            bloomComponent = new BloomComponent(this);
            Components.Add(bloomComponent);
        }
        private SpaceShip GetLowestHealthEnemy(SpaceShip origin)
        {
            SpaceShip lowHealthShip = null;
            float     lowestHealth  = int.MaxValue;

            for (int k = 0; k < FrameworkCore.level.Ships.Count; k++)
            {
                //filter out non-ships.
                if (!Helpers.IsSpaceship(FrameworkCore.level.Ships[k]) ||
                    FrameworkCore.level.Ships[k].IsDestroyed ||
                    FrameworkCore.level.Ships[k].owner.factionName == origin.owner.factionName)
                {
                    continue;
                }

                //get handle on NPC ship.
                SpaceShip NPCShip = (SpaceShip)FrameworkCore.level.Ships[k];

                float curHealth = NPCShip.Health;

                if (curHealth < lowestHealth)
                {
                    curHealth     = lowestHealth;
                    lowHealthShip = NPCShip;
                }
            }

            return(lowHealthShip);
        }
Beispiel #5
0
        public virtual void CreateBolt(SpaceShip ship, Vector3 targetPos, Vector3 originPos)
        {
            Vector3 bulletVector = targetPos - originPos;

            bulletVector.Normalize();

            float finalBoltSpeed = prjData.speed;

            if (prjData.speedVariance > 0)
            {
                finalBoltSpeed += MathHelper.Lerp(-prjData.speedVariance, prjData.speedVariance,
                                                  (float)FrameworkCore.r.NextDouble());
            }

            finalBoltSpeed = Helpers.ApplyBulletSpeedModifier(ship, finalBoltSpeed);

            Vector3 projectileVelocity = bulletVector * finalBoltSpeed;

            Vector2 tempMuzzle = muzzleOffset;

            if (muzzleVariation != Vector2.Zero)
            {
                tempMuzzle.X += MathHelper.Lerp(-muzzleVariation.X, muzzleVariation.X, (float)FrameworkCore.r.NextDouble());
                tempMuzzle.Y += MathHelper.Lerp(-muzzleVariation.Y, muzzleVariation.Y, (float)FrameworkCore.r.NextDouble());
            }


            FrameworkCore.Bolts.FireBolt(prjData, projectileVelocity, boltRange, ship,
                                         tempMuzzle, minDeviation, maxDeviation, minDeviationTime, maxDeviationTime,
                                         originPos, targetPos);
        }
Beispiel #6
0
        protected override void LoadContent()
        {
            _spriteBatch = new SpriteBatch(GraphicsDevice);

            // TODO: use this.Content to load your game content here
            printText = new PrintText(Content.Load <SpriteFont>("minFont"));

            player  = new SpaceShip(Content.Load <Texture2D>("images/ship"), 400, 400, 10f, 10f, Content.Load <Texture2D>("images/bullet"));
            enemies = new List <Enemy>();
            Random    random    = new Random();
            Texture2D tmpSprite = Content.Load <Texture2D>("images/enemies/mine");

            for (int i = 0; i < 10; i++)
            {
                int  rndX = random.Next(0, Window.ClientBounds.Width - tmpSprite.Width);
                int  rndY = random.Next(0, Window.ClientBounds.Height / 2);
                Mine temp = new Mine(tmpSprite, rndX, rndY);
                enemies.Add(temp);
            }
            tmpSprite = Content.Load <Texture2D>("images/enemies/tripod");
            for (int i = 0; i < 5; i++)
            {
                int  rndX = random.Next(0, Window.ClientBounds.Width - tmpSprite.Width);
                int  rndY = random.Next(0, Window.ClientBounds.Height / 2);
                Mine temp = new Mine(tmpSprite, rndX, rndY);
                enemies.Add(temp);
            }
        }
Beispiel #7
0
 public void Initialize(Vector3 velocity, float damage, float duration, SpaceShip ship)
 {
     this.velocity = velocity;
     timeRemaining = duration;
     position      = ship.Position;
     rotation      = ship.Rotation;
     this.damage   = damage;
     owner         = ship;
 }
Beispiel #8
0
 public virtual bool Fire(SpaceShip ship, Vector3 targetPos, Vector3 originPos)
 {
     if (firetype == fireType.Beam)
     {
         return(BeamFire(ship, targetPos, originPos));
     }
     else
     {
         return(ProjFire(ship, targetPos, originPos));
     }
 }
Beispiel #9
0
        public void Initialize(ProjectileData prjdata, Vector3 velocity, float duration, SpaceShip ship, Vector2 offset, float minDev, float maxDev, int minDevTime, int maxDevTime, Vector3 originPos, Vector3 targetPos)
        {
            this.prjData  = prjdata;
            this.velocity = velocity;
            timeRemaining = duration;
            //position = ship.Position;
            Position = originPos;

            Matrix shipOrientation = Matrix.CreateFromQuaternion(ship.Rotation);

            Position += shipOrientation.Right * offset.X;
            Position += shipOrientation.Up * -offset.Y;



            //rotation = ship.Rotation;
            Matrix lookAt = Matrix.CreateLookAt(originPos, targetPos, Vector3.Up);

            Rotation = Quaternion.CreateFromRotationMatrix(Matrix.Invert(lookAt));


            owner            = ship;
            minDeviation     = minDev;
            maxDeviation     = maxDev;
            minDeviationTime = minDevTime;
            maxDeviationTime = maxDevTime;


            if (prjdata.trailType != TrailType.None)
            {
                if (prjdata.trailType == TrailType.RocketTrail)
                {
                    emitter = FrameworkCore.Particles.CreateRockEmitter(this.Position);
                }
                else if (prjdata.trailType == TrailType.TorpedoTrail)
                {
                    emitter = FrameworkCore.Particles.CreateTorpedoEmitter(this.Position);
                }
            }
            else
            {
                emitter = null;
            }



            /*
             * if (idleCue == null)
             * {
             *  idleCue = FrameworkCore.audiomanager.Play3DCue(sounds.Rocket.rocket3, this.audioEmitter);
             * }
             */
        }
        /// <summary>
        /// When a ship gets blown up, spawn chunks.
        /// </summary>
        /// <param name="model"></param>
        /// <param name="ShipOwner"></param>
        /// <param name="position"></param>
        /// <param name="MoveDir"></param>
        public void AddHulk(ModelType model, SpaceShip ShipOwner, Vector3 position, Vector3 MoveDir)
        {
            MoveDir.Normalize();

            Hulk item = new Hulk();

            item.modelMesh = model;
            item.Position  = position;
            item.moveDir   = MoveDir;

            item.shipOwner = ShipOwner;

            Matrix lookAt = Matrix.CreateLookAt(item.Position, item.Position + MoveDir, Vector3.Up);

            item.Rotation = Quaternion.CreateFromRotationMatrix(Matrix.Invert(lookAt));


            float lifeTimeModifier = Helpers.randFloat(1.25f, 1.75f);

            item.lifeTime = (int)(Helpers.MAXROUNDTIME * lifeTimeModifier);
            item.speed    = MathHelper.Lerp(8, 12, (float)FrameworkCore.r.NextDouble());;
            item.BSphere  = new BoundingSphere(item.Position, 2f);

            float x = 0;
            float y = 0;

            if ((float)FrameworkCore.r.NextDouble() > 0.5f)
            {
                x = MathHelper.Lerp(-0.0008f, 0.0008f, (float)FrameworkCore.r.NextDouble());
                y = MathHelper.Lerp(-0.0004f, 0.004f, (float)FrameworkCore.r.NextDouble());
            }
            else
            {
                x = MathHelper.Lerp(-0.0004f, 0.0004f, (float)FrameworkCore.r.NextDouble());
                y = MathHelper.Lerp(-0.0008f, 0.0008f, (float)FrameworkCore.r.NextDouble());
            }

            item.angularVelocity  = new Vector3(x, y, 0);
            item.CollisionSpheres = new CollisionSphere[1]
            {
                new CollisionSphere(new BoundingSphere(item.Position, 2f), Vector3.Zero)
            };

            item.emitter = FrameworkCore.Particles.CreateHulkEmitter(item.Position);

            hulks.Add(item);



            FrameworkCore.playbackSystem.AddItem(item, objectType.hulk, ShipOwner.owner.ShipColor);
        }
        private Vector3 GetRandomDestination(GameTime gameTime, SpaceShip origin, Vector3 destination)
        {
            //find a random location to move to. Move to a spot near the enemy.
            Vector3 finalPos = new Vector3(
                FrameworkCore.r.Next(16, 80),
                FrameworkCore.r.Next(16, 80),
                FrameworkCore.r.Next(16, 80));

            if (FrameworkCore.r.Next(2) == 0)
            {
                finalPos.X *= -1f;
            }

            if (FrameworkCore.r.Next(2) == 0)
            {
                finalPos.Y *= -1f;
            }

            if (FrameworkCore.r.Next(2) == 0)
            {
                finalPos.Z *= -1f;
            }

            //final Position. This disregards the round timer.
            finalPos = destination + finalPos;

            //calculate where the ship will be at the end of this round.
            float elapsed        = (float)gameTime.ElapsedGameTime.TotalSeconds;
            float markDistTemp   = origin.GetSpeed() * elapsed;
            float travelDist     = Vector3.Distance(origin.Position, finalPos) * elapsed;
            float markTimeLength = travelDist / markDistTemp;

            markDistTemp *= (Helpers.MAXROUNDTIME / 1000f) / elapsed;
            Vector3 markDir = finalPos - origin.Position;

            markDir.Normalize();
            Vector3 roundEndPos = origin.Position + markDir * markDistTemp;

            //our calculation above assumes the ship doesn't stop prematurely. do a check to see if
            //the final position is actually short of the full round move time.
            if (Vector3.Distance(origin.Position, finalPos) < Vector3.Distance(origin.Position, roundEndPos))
            {
                roundEndPos = finalPos;
            }

            return(roundEndPos);
        }
        private void DrawUpgrades(SpaceShip ship, Vector2 pos)
        {
            if (ship.fleetShipInfo == null)
            {
                return;
            }

            if (ship.fleetShipInfo.upgradeArray == null)
            {
                return;
            }

            Vector2 textVec = FrameworkCore.Serif.MeasureString("SAMPLE");

            pos.Y -= 16; //buffer from the infobox rectangle.
            pos.Y -= textVec.Y * 2;

            Vector2 titlePos = pos + new Vector2(0, -textVec.Y - 4);

            bool drawTitle = false;

            for (int i = 0; i < ship.fleetShipInfo.upgradeArray.Length; i++)
            {
                if (ship.fleetShipInfo.upgradeArray[i] == null)
                {
                    continue;
                }

                if (ship.fleetShipInfo.upgradeArray[i].gameEffect == null)
                {
                    continue;
                }

                Helpers.DrawOutline(FrameworkCore.Serif, ship.fleetShipInfo.upgradeArray[i].description,
                                    pos, Color.White, Color.Black, 0, Vector2.Zero, Transition);

                pos.Y    += textVec.Y;
                drawTitle = true;
            }

            if (drawTitle && owner != null && owner.TeamColor != null)
            {
                Helpers.DrawOutline(FrameworkCore.Serif, Resource.MenuUpgrades,
                                    titlePos, owner.TeamColor, new Color(0, 0, 0, 128), 0, Vector2.Zero, Transition);
            }
        }
Beispiel #13
0
        private bool BeamFire(SpaceShip ship, Vector3 targetPos, Vector3 originPos)
        {
            if (Vector3.Distance(originPos, targetPos) > beamRange /*beam range*/ + 32 /*slop room*/)
            {
                //target is too far away!
                return(false);
            }


            if (curBeamFireTime <= 0 && lastFireTime <= 0)
            {
                curBeamFireTime = beamFireTime;

                return(true);
            }

            return(false);
        }
Beispiel #14
0
        private bool ProjFire(SpaceShip ship, Vector3 targetPos, Vector3 originPos)
        {
            if (lastFireTime <= 0)
            {
                if (burstAmount > 0)
                {
                    curBurstAmount++;

                    if (curBurstReloadTime > 0)
                    {
                        return(false);
                    }

                    if (curBurstAmount > burstAmount)
                    {
                        float fireRateModifier = 1f;
                        if (ship.OrderEffect != null)
                        {
                            if (ship.OrderEffect.fireRateModifier > 0)
                            {
                                fireRateModifier = ship.OrderEffect.fireRateModifier;
                            }
                        }


                        curBurstReloadTime = (int)(burstReloadTime / fireRateModifier);

                        //refiremod controls time between fire bursts.
                        curBurstReloadTime = Helpers.ApplyFireRateModifier(ship, curBurstReloadTime);

                        return(false);
                    }
                }



                CreateBolt(ship, targetPos, originPos);
                return(true);
            }

            return(false);
        }
        public Turret(Game game, ModelType modelName, SpaceShip owner, Weapon weapon, Vector3 offset,
                      Vector3[] MuzzleOffsets, Vector3 defaultVector, Vector3 upAimVector)

        {
            this.localOffset = offset;
            this.parentShip  = owner;

            turretWeapon = new Weapon();
            FieldInfo[] fieldInfoArray = typeof(Weapon).GetFields();
            foreach (FieldInfo info in fieldInfoArray)
            {
                info.SetValue(this.turretWeapon, info.GetValue(weapon));
            }


            this.muzzleOffsets = MuzzleOffsets;
            this.defaultVector = defaultVector;
            this.upAimVector   = upAimVector;
            this.turretModel   = modelName;
        }
Beispiel #16
0
        public virtual void Hit(SpaceShip ship)
        {
            currentDamage      += 0.3f; // Ships hitting each other don't do much damage.  Must happen alot ;}
            ship.currentDamage += 0.3f;

            particles.CreatePlanetExplosion(position, actualVelocity);

            // When we hit another ship, generate random velocity
            // give one ship this velocity, give other ship the opposite of this velocity
            // for about half a second of time...
            actualVelocity = new Vector3((1.0f - 2.0f * (float)spaceShipAIData.RandomNumber.NextDouble()) * maxEngineSpeed,
                                         (1.0f - 2.0f * (float)spaceShipAIData.RandomNumber.NextDouble()) * maxEngineSpeed,
                                         (1.0f - 2.0f * (float)spaceShipAIData.RandomNumber.NextDouble()) * maxEngineSpeed);

            ship.actualVelocity = -actualVelocity;

            float dt = 0.5f;

            position.X += actualVelocity.X * dt;
            position.Y += actualVelocity.Y * dt;
            position.Z += actualVelocity.Z * dt;

            ship.position.X += ship.actualVelocity.X * dt;
            ship.position.Y += ship.actualVelocity.Y * dt;
            ship.position.Z += ship.actualVelocity.Z * dt;

            ((SpaceShooter.SpaceShooterGame)Game).ShipCollideSound.Play();

            if (currentDamage > maxDamage)
            {
                destroyed = true;
                particles.CreateNova(position);

                ((SpaceShooter.SpaceShooterGame)Game).ShipHitSound.Play(1.0f);
                ((SpaceShooter.SpaceShooterGame)Game).ShipCollideSound.Play(1.0f);
            }
        }
        /// <summary>
        /// Find a suitable enemy target.
        /// </summary>
        /// <param name="origin"></param>
        /// <returns></returns>
        private SpaceShip acquireEnemyShip()
        {
            try
            {
                //BC Sep 5 2010

                List <SpaceShip> enemyShips = new List <SpaceShip>();

                for (int k = 0; k < FrameworkCore.level.Ships.Count; k++)
                {
                    //filter out non-ships.
                    if (!Helpers.IsSpaceship(FrameworkCore.level.Ships[k]) ||
                        FrameworkCore.level.Ships[k].IsDestroyed ||
                        FrameworkCore.level.Ships[k].owner.factionName == this.factionName)
                    {
                        continue;
                    }

                    //get handle on NPC ship.
                    SpaceShip NPCShip = (SpaceShip)FrameworkCore.level.Ships[k];
                    enemyShips.Add(NPCShip);
                }

                int randomShipIndex = FrameworkCore.r.Next(enemyShips.Count);
                return(enemyShips[randomShipIndex]);

                /*
                 * //Generate a list of all friendly ships.
                 * List<SpaceShip> friendlyShips = new List<SpaceShip>();
                 *
                 * for (int k = 0; k < FrameworkCore.level.Ships.Count; k++)
                 * {
                 *  //filter out non-ships.
                 *  if (!Helpers.IsSpaceship(FrameworkCore.level.Ships[k]))
                 *      continue;
                 *
                 *  //skip dead ships.
                 *  if (FrameworkCore.level.Ships[k].IsDestroyed)
                 *      continue;
                 *
                 *  //skip player-controlled ships.
                 *  if (FrameworkCore.level.Ships[k].owner.GetType() == typeof(PlayerCommander))
                 *      continue;
                 *
                 *  //only give orders to this commander's ships.
                 *  if (FrameworkCore.level.Ships[k].owner != this)
                 *      continue;
                 *
                 *  friendlyShips.Add((SpaceShip)FrameworkCore.level.Ships[k]);
                 * }
                 *
                 * //pick a random friendly.
                 * int randomShipIndex = FrameworkCore.r.Next(friendlyShips.Count);
                 * SpaceShip randomFriendly = friendlyShips[randomShipIndex];
                 *
                 * //find the ship closest to this friendly.
                 * SpaceShip nearestShip = GetNearestEnemy(randomFriendly);
                 * return nearestShip;*/
            }
            catch
            {
                return(null);
            }
        }
Beispiel #18
0
        //default values.



        public override bool Fire(SpaceShip ship, Vector3 targetPos, Vector3 originPos)
        {
        }
        private void DrawInfoBox(GameTime gameTime, Vector2 originPos)
        {
            if (owner.lastSelectedShip == null)
            {
                return;
            }

            int NumberOfLines = 5;

            float textSize = MathHelper.Lerp(0, 1, Transition);

            SpaceShip ship = owner.lastSelectedShip;

            if (ship == null)
            {
                return;
            }


            Vector2 textVec = FrameworkCore.Serif.MeasureString("SAMPLE");
            float   gapSize = textVec.Y + 5;


            Vector2 textPos = originPos;

            //textPos.X = MathHelper.Lerp(originPos.X, 70, Transition);
            textPos.X = Helpers.PopLerp(Transition, originPos.X, 20, 130);
            textPos.Y = (FrameworkCore.Graphics.GraphicsDevice.Viewport.Height
                         - 96 /* safescreen */ - (NumberOfLines + 1.5f) /* number of lines+1 */ * gapSize);


            DrawUpgrades(ship, textPos);


            int longestString = 0;

            //----------------------------------------------------------------------------
            //Rectangle bg.
            Vector2 boxPos = textPos;

            //----------------------------------------------------------------------------

            //captain name.
            Vector2 captainNamePos = textPos;
            Vector2 captainNameVec = FrameworkCore.Serif.MeasureString(ship.CaptainName);

            if (captainNameVec.X > longestString)
            {
                longestString = (int)captainNameVec.X;
            }


            //----------------------------------------------------------------------------

            //ship class.
            textPos.Y += gapSize;
            Vector2 classNamePos = textPos;
            Vector2 classNameVec = FrameworkCore.Serif.MeasureString(ship.shipName);

            if (classNameVec.X > longestString)
            {
                longestString = (int)classNameVec.X;
            }



            //----------------------------------------------------------------------------

            //health string.
            textPos.Y += gapSize;
            string  healthString = "" + Math.Ceiling(ship.Health) + "/" + ship.MaxDamage;
            Vector2 healthPos    = textPos;


            //bar.
            int     barGap    = 8;
            Vector2 healthVec = FrameworkCore.Serif.MeasureString(healthString);
            float   barAmount = ship.Health / ship.MaxDamage;
            int     barWidth  = (int)(ship.MaxDamage / 5f);

            barWidth = (int)MathHelper.Lerp(0, barWidth, Transition);
            int   barHeight = 12;
            float barOffset = barWidth / 2f;

            barOffset += healthVec.X;
            barOffset += barGap;
            Color barColor = Color.Lerp(Helpers.transColor(ship.owner.TeamColor), ship.owner.TeamColor, Transition);

            Vector2 barPos = textPos + new Vector2(barOffset, 12);

            int barTotalLength = (int)(barWidth + healthVec.X + barGap);

            if (barTotalLength > longestString)
            {
                longestString = barTotalLength;
            }

            //kills
            //----------------------------------------------------------------------------
            textPos.Y += gapSize;
            Vector2 killPos = textPos;

            //missions
            //----------------------------------------------------------------------------
            textPos.Y += gapSize;
            Vector2 missionPos = textPos;


            //----------------------------------------------------------------------------

            //background box.
            Color     boxColor = Color.Lerp(OldXNAColor.TransparentBlack, new Color(0, 0, 0, 192), Transition);
            Rectangle boxRect  = new Rectangle((int)boxPos.X, (int)boxPos.Y, longestString,
                                               (int)(NumberOfLines * gapSize));

            boxRect.Inflate(16, 8);
            boxRect.Width = (int)MathHelper.Lerp(1, boxRect.Width, Transition);
            FrameworkCore.SpriteBatch.Draw(FrameworkCore.hudSheet, boxRect, sprite.giantRectangle, boxColor);



            //----------------------------------------------------------------------------
            // -- DRAW --
            FrameworkCore.SpriteBatch.DrawString(FrameworkCore.Serif, ship.CaptainName,
                                                 captainNamePos, Color.White, 0, Vector2.Zero, textSize, SpriteEffects.None, 0);

            FrameworkCore.SpriteBatch.DrawString(FrameworkCore.Serif, ship.shipName,
                                                 classNamePos, new Color(140, 140, 140),
                                                 0, Vector2.Zero, textSize, SpriteEffects.None, 0);

            FrameworkCore.SpriteBatch.DrawString(FrameworkCore.Serif, healthString,
                                                 healthPos, Color.White, 0, Vector2.Zero, textSize, SpriteEffects.None, 0);

            Helpers.DrawBar(barPos, barAmount, barWidth, barHeight, 1,
                            barColor, new Color(255, 255, 255, 64));

            FrameworkCore.SpriteBatch.DrawString(FrameworkCore.Serif, Resource.MenuKills + " " + ship.fleetShipInfo.stats.kills,
                                                 killPos, Color.White,
                                                 0, Vector2.Zero, textSize, SpriteEffects.None, 0);

            FrameworkCore.SpriteBatch.DrawString(FrameworkCore.Serif, Resource.MenuVeterancy,
                                                 missionPos, Color.White,
                                                 0, Vector2.Zero, textSize, SpriteEffects.None, 0);

            if (ship.fleetShipInfo == null)
            {
                return;
            }

            if (ship.fleetShipInfo.veterancy <= 0)
            {
                return;
            }

            Vector2 stringLength = FrameworkCore.Serif.MeasureString(Resource.MenuVeterancy);

            for (int i = 0; i < ship.fleetShipInfo.veterancy; i++)
            {
                Vector2 starPos = missionPos;
                starPos.Y += stringLength.Y / 2f;
                starPos.X += stringLength.X;
                starPos.X += sprite.star.Width / 1.5f;
                starPos.X += (i * (sprite.star.Width - 5));
                FrameworkCore.SpriteBatch.Draw(FrameworkCore.hudSheet, starPos,
                                               sprite.star, Color.White, 0,
                                               Helpers.SpriteCenter(sprite.star), 1, SpriteEffects.None, 0);
            }
        }
Beispiel #20
0
        public void FireBolt(string name, Vector3 velocity, float duration, float damage, SpaceShip ship)
        {
            Bolt proj = new Bolt();

            proj.Initialize(velocity, damage, duration, ship);
            proj.LoadContent(Game, name);

            bolts.Add(proj);
            ((SpaceShooter.SpaceShooterGame)Game).BoltExplodeSound.Play();
        }
Beispiel #21
0
 public override void Update(GameTime gameTime, SpaceShip ship)
 {
     Console.WriteLine("firetime: " + curBeamFireTime + "  reload: " + curBeamReloadTime);
 }
Beispiel #22
0
        private void InitializeBolt(int index, ProjectileData prjData, Vector3 velocity, float duration, SpaceShip ship, Vector2 offset, float minDev, float maxDev, int minDevTime, int maxDevTime, Vector3 originPos, Vector3 targetPos)
        {
            bolts[index].Initialize(prjData, velocity, duration, ship, offset, minDev, maxDev, minDevTime, maxDevTime, originPos, targetPos);
            bolts[index].LoadContent(prjData.modelName);
            bolts[index].isActive = true;

            if (ship.owner != null && ship.owner.ShipColor != null)
            {
                FrameworkCore.playbackSystem.AddItem(bolts[index], objectType.bolt, ship.owner.ShipColor);
            }

            activeBolts.Add(index);
        }
Beispiel #23
0
 public void FireBolt(ProjectileData prjData, Vector3 velocity, float duration, SpaceShip ship, Vector2 offset, float minDev, float maxDev, int minDevTime, int maxDevTime, Vector3 originPos, Vector3 targetPos)
 {
     for (int i = 0; i < MAXBULLETS; i++)
     {
         if (!bolts[i].isActive)
         {
             //brute force search for inactive bolt.
             InitializeBolt(i, prjData, velocity, duration, ship, offset, minDev, maxDev, minDevTime, maxDevTime, originPos, targetPos);
             return;
         }
     }
 }
        public void GenerateShipHulk(SpaceShip ship, ShipData shipData, ModelType mesh1, ModelType mesh2)
        {
            if (shipData.numChunks <= 0)
            {
                return;
            }

            //chunks are evenly distributed to the front and rear of the ship. The
            // front chunks are propelled forward, and rear chunks are propelled backward.

            for (int i = 0; i < shipData.numChunks; i++)
            {
                //first, find  a random spot to spawn the hulk within the ship bounding perimeter.
                Vector2 spawnPos = Vector2.Zero; //X = WIDTH, Y = LENGTH.
                spawnPos.X = MathHelper.Lerp(shipData.shipWidth / -2, shipData.shipWidth / 2,
                                             (float)FrameworkCore.r.NextDouble());
                spawnPos.Y = MathHelper.Lerp(0.1f, shipData.shipLength / 2,
                                             (float)FrameworkCore.r.NextDouble());

                if (i % 2 == 0)
                {
                    spawnPos.Y *= -1f;
                }

                Matrix  orientationMatrix = Matrix.CreateFromQuaternion(ship.Rotation);
                Vector3 spawnPosition     = ship.Position +
                                            orientationMatrix.Forward * spawnPos.Y +
                                            orientationMatrix.Right * spawnPos.X;


                //now, generate the direction the hulk will move.
                Vector3 moveDir = Vector3.Zero;
                if (spawnPos.Y > 0)
                {
                    //chunk spawned in front of ship. propel it forward.
                    moveDir = orientationMatrix.Forward;
                }
                else
                {
                    moveDir = orientationMatrix.Backward;
                }


                //add some random variance to the move direction.
                moveDir += orientationMatrix.Right * MathHelper.Lerp(-0.5f, 0.5f, (float)FrameworkCore.r.NextDouble());
                moveDir += orientationMatrix.Up * MathHelper.Lerp(-0.5f, 0.5f, (float)FrameworkCore.r.NextDouble());

                ModelType mesh = ModelType.debrisHulk1;

                if (i % 2 == 0)
                {
                    mesh = mesh1;
                }
                else
                {
                    mesh = mesh2;
                }

                //spawn the hulk.
                AddHulk(mesh, ship, spawnPosition, moveDir);

                for (int k = 0; k < 16; k++)
                {
                    Vector3 debrisMoveDir = moveDir;

                    debrisMoveDir += orientationMatrix.Right * MathHelper.Lerp(-0.5f, 0.5f, (float)FrameworkCore.r.NextDouble());
                    debrisMoveDir += orientationMatrix.Up * MathHelper.Lerp(-0.5f, 0.5f, (float)FrameworkCore.r.NextDouble());



                    FrameworkCore.debrisManager.AddDebris(getRandomDebris(),
                                                          spawnPosition, debrisMoveDir);
                }
            }
        }
        //targeting brain.
        public void Update(GameTime gameTime, List <Collideable> ships)
        {
            turretWeapon.Update(gameTime);

            BeamDamageCheck(gameTime);


            UpdateBeamSound();


            if (updateTimer > 0)
            {
                updateTimer -= (int)gameTime.ElapsedGameTime.TotalMilliseconds;

                if (lastSelectedShip != null && !lastSelectedShip.IsDestroyed)
                {
                    UpdateRotation(gameTime, lastSelectedShip.Position);
                }
                else
                {
                    ResetTurretOrientation();
                }

                return;
            }
            else
            {
                updateTimer = 300;
            }

            if (parentShip.targetShip != null && parentShip.targetShip.IsDestroyed)
            {
                //priority ship is dead. Clear this ship's priority target.
                parentShip.SetTargetShip(null);
            }

            //if we can't fire, then reset all turrets to default orientations.
            if (parentShip.OrderEffect != null && !parentShip.OrderEffect.canFire)
            {
                ResetTurretOrientation();
                return;
            }

            //limit how often the think update happens, limit to the turret weapon's refire rate.
            if (turretWeapon.lastFireTime > 0 && turretWeapon.firetype == Weapon.fireType.Projectile)
            {
                return;
            }



            SpaceShip targetShip             = null;
            float     nearestDistance        = float.MaxValue;
            Vector3   finalPredictedPosition = Vector3.Zero;

            Matrix orientation       = Matrix.CreateFromQuaternion(parentShip.Rotation); //ship orientation
            Matrix turretOrientation = Matrix.CreateFromQuaternion(rotateQuat);          //turret orientation


            //does the ship have a priority target? check if target is in firing arc.
            if (parentShip.targetShip != null && !parentShip.targetShip.IsDestroyed)
            {
                Vector3   muzzleVec         = GetMuzzleVec(0);
                SpaceShip enemyShip         = (SpaceShip)parentShip.targetShip;
                Vector3   predictedPosition = GetPredictedPosition(gameTime, muzzleVec, enemyShip);

                //now check if the predictedPosition is within the valid firing arc.
                Vector3 aimFacing = GetOrientationMatrix(upAimVector, orientation);
                float   frontDot  = Helpers.GetDot(muzzleVec, predictedPosition, aimFacing);
                if (frontDot > 0)
                {
                    targetShip             = enemyShip;
                    finalPredictedPosition = predictedPosition;
                }
            }

            //we do not have a priority target. so, let's evaluate every ship.
            if (targetShip == null)
            {
                for (int i = 0; i < ships.Count; i++)
                {
                    //only target spaceships.
                    if (!Helpers.IsSpaceship(ships[i]))
                    {
                        continue;
                    }

                    SpaceShip enemy = ships[i] as SpaceShip;

                    //don't target dead ships.
                    if (enemy.IsDestroyed)
                    {
                        continue;
                    }

                    //don't target owner.
                    if (enemy == parentShip)
                    {
                        continue;
                    }

                    //don't target friendlies.
                    if (enemy.owner == parentShip.owner)
                    {
                        continue;
                    }

                    //same faction. don't target this ship.
                    if (enemy.owner.factionName == parentShip.owner.factionName)
                    {
                        continue;
                    }

                    Vector3 aimFacing = GetOrientationMatrix(upAimVector, orientation);

                    float frontDot = Helpers.GetDot(this.position, enemy.Position, aimFacing);

                    if (frontDot < 0)
                    {
                        continue;
                    }


                    //ok, we now have a LIVE ENEMY ship that is in FRONT of us.
                    //Now get the predicted firing Vector IF the ship is moving.
                    // if the ship isn't moving, then we don't predict anything - we just directly target the ship.

                    SpaceShip enemyShip = (SpaceShip)enemy;



                    Vector3 muzzleVec         = GetMuzzleVec(0); //for simplicity sake we only check the first muzzle barrel.
                    Vector3 predictedPosition = Vector3.Zero;

                    //if the weapon is not ready to be fired, don't bother calculating the predictedPosition
                    if (turretWeapon.CurBurstReloadTime <= 0 && turretWeapon.lastFireTime <= 0)
                    {
                        predictedPosition = GetPredictedPosition(gameTime, muzzleVec, enemyShip);
                    }
                    else
                    {
                        predictedPosition = enemy.Position;
                    }



                    //now check if the predictedPosition is within the valid firing arc.
                    frontDot = Helpers.GetDot(muzzleVec, predictedPosition, aimFacing);
                    if (frontDot < 0)
                    {
                        continue;
                    }

                    //keep track of the closest predictedPosition.
                    //enemy ship.
                    float distanceToEnemyShip = Vector3.Distance(predictedPosition, this.position);
                    if (distanceToEnemyShip < nearestDistance)
                    {
                        nearestDistance        = distanceToEnemyShip;
                        targetShip             = (SpaceShip)enemy;
                        finalPredictedPosition = predictedPosition;
                    }
                }
            }

            if (targetShip == null)
            {
                //no valid target found.
                //I have no target: so reset turret orientation to default aim position.
                ResetTurretOrientation();
                return;
            }

            //now fire the turret.
            for (int i = 0; i < muzzleOffsets.Length; i++)
            {
                Vector3 muzzleVec = position;
                muzzleVec +=
                    (turretOrientation.Right * muzzleOffsets[i].X) +
                    (turretOrientation.Up * muzzleOffsets[i].Y) +
                    (turretOrientation.Forward * -muzzleOffsets[i].Z);

                if (turretWeapon.Fire(parentShip, finalPredictedPosition, muzzleVec))
                {
                    IAudioEmitter audioEmit = new IAudioEmitter();
                    audioEmit.Position = this.position;


                    if (turretWeapon.firetype == Weapon.fireType.Projectile)
                    {
                        FrameworkCore.audiomanager.Play3DCue(sounds.Weapon.rifle, audioEmit);
                    }


                    PlayBeamSound();


                    //bolt was created. now create the muzzleflash.
                    parentShip.Particles.CreateMuzzleFlash(muzzleVec, (finalPredictedPosition - muzzleVec));

                    if (i >= muzzleOffsets.Length - 1)
                    {
                        //and reset the weapon's refire timer.
                        float fireRateModifier = 1f;
                        if (parentShip.OrderEffect != null)
                        {
                            if (parentShip.OrderEffect.fireRateModifier > 0)
                            {
                                fireRateModifier = parentShip.OrderEffect.fireRateModifier;
                            }
                        }



                        turretWeapon.lastFireTime = (int)(turretWeapon.refireTime / fireRateModifier);

                        //fire rate modifier controls time between shots.
                        turretWeapon.lastFireTime = Helpers.ApplyFireRateModifier(parentShip, turretWeapon.lastFireTime);
                    }
                }
            }

            lastSelectedShip = targetShip;

            //Handle turret rotation.
            UpdateRotation(gameTime, finalPredictedPosition);
        }
        private Vector3 GetPredictedPosition(GameTime gameTime, Vector3 muzzleVec, SpaceShip enemyShip)
        {
            Vector3 predictedPosition = Vector3.Zero;

            //Beam weapons do not predict ahead of the enemy ship.
            if (turretWeapon.firetype == Weapon.fireType.Beam)
            {
                return(enemyShip.Position);
            }


            if (enemyShip.targetPos != Vector3.Zero)
            {
                //predict where the ship is going to be.

                //get what direction the targetship is moving.
                Vector3 targetMovedir = enemyShip.targetPos - enemyShip.Position;

                if (targetMovedir.Length() < 1f || enemyShip.targetPos == Vector3.Zero)
                {
                    //ship isn't moving. just target ship center directly.
                    predictedPosition = enemyShip.Position;
                }
                else
                {
                    //aim ahead of a moving ship.
                    float dt = (float)gameTime.ElapsedGameTime.TotalSeconds;
                    targetMovedir.Normalize();

                    float timeToTarget = Vector3.Distance(muzzleVec,
                                                          enemyShip.Position + targetMovedir * enemyShip.GetSpeed()) / turretWeapon.prjData.speed;

                    //get a rough estimated predicted position.
                    predictedPosition = enemyShip.Position + timeToTarget * targetMovedir * enemyShip.GetSpeed();

                    //We now have a rough estimate position of where the bullet will intercept the enemy.
                    //Now we want to refine that estimate and close in on a more accurate intercept point.


                    //Iterate and check against a bunch of positions.
                    float   lowestDelta  = float.MaxValue;
                    Vector3 bestPosition = Vector3.Zero;

                    Vector3 predictMoveDir = enemyShip.Position - predictedPosition;
                    predictMoveDir.Normalize();

                    for (int i = 0; i < CHECKAMOUNT; i++)
                    {
                        //this is the candidate position.
                        Vector3 checkPos = predictedPosition + predictMoveDir * (i * INTERVALDIST);

                        //get time-to-arrive data for the bullet and the enemy.
                        float enemyTime = GetPredictedTime(gameTime, enemyShip.GetSpeed(),
                                                           enemyShip.Position, checkPos);
                        float bulletTime = GetPredictedTime(gameTime, turretWeapon.prjData.speed,
                                                            muzzleVec, checkPos);

                        //check the delta between the enemy time-to-arrive vs. the bullet time-to-arrive.
                        //hone in on the lowest delta value. store that value.
                        float currentDelta = Math.Abs(enemyTime - bulletTime);
                        if (currentDelta < lowestDelta)
                        {
                            lowestDelta  = currentDelta;
                            bestPosition = checkPos;
                        }
                    }

                    predictedPosition = bestPosition;
                }
            }
            else
            {
                predictedPosition = enemyShip.Position;
            }

            return(predictedPosition);
        }
        /// <summary>
        /// When the Action Round is about to begin, give the NPC ships some move orders.
        /// </summary>
        public void HandleAIOrders(GameTime gameTime)
        {
            pathIndex = 0;

            if (currentEnemyTarget == null || currentEnemyTarget.IsDestroyed)
            {
                timeOnCurrentTarget = 0;
                currentEnemyTarget  = acquireEnemyShip();
            }
            else
            {
                //keep track of how many rounds we've been tracking this target.
                timeOnCurrentTarget++;

                if (timeOnCurrentTarget >= 2 && FrameworkCore.r.Next(2) == 0)
                {
                    timeOnCurrentTarget = 0;
                    currentEnemyTarget  = acquireEnemyShip();
                }
            }

            //if we don't have a valid enemy target, then do nothing.
            if (currentEnemyTarget == null)
            {
                return;
            }

            //go to every ship that belongs to this commander.
            for (int k = 0; k < FrameworkCore.level.Ships.Count; k++)
            {
                //filter out non-ships.
                if (!Helpers.IsSpaceship(FrameworkCore.level.Ships[k]))
                {
                    continue;
                }

                //skip dead ships.
                if (FrameworkCore.level.Ships[k].IsDestroyed)
                {
                    continue;
                }

                //skip player-controlled ships.
                if (FrameworkCore.level.Ships[k].owner.GetType() == typeof(PlayerCommander))
                {
                    continue;
                }

                //only give orders to this commander's ships.
                if (FrameworkCore.level.Ships[k].owner != this)
                {
                    continue;
                }

                //We now have a handle on a ship belonging to this commander.
                //give it a move order.
                Vector3 roundEndPos = ((SpaceShip)FrameworkCore.level.Ships[k]).Position;

                bool             foundValidPath   = false;
                int              candidateIndex   = 0;
                BoundingSphere[] candidateSpheres = new BoundingSphere[64];

                for (int i = 0; i < PATHSHIPATTEMPTS + PATHWANDERATTEMPTS; i++)
                {
                    if (i <= PATHSHIPATTEMPTS)
                    {
                        //get a random move vector
                        roundEndPos = GetRandomDestination(gameTime,
                                                           (SpaceShip)FrameworkCore.level.Ships[k], currentEnemyTarget.Position);
                    }
                    else
                    {
                        //couldn't find a clean shot to the enemy.
                        //so, wander around randomly.
                        Vector3 wanderPos = new Vector3(randCoordinate, randCoordinate, randCoordinate);

                        roundEndPos = GetRandomDestination(gameTime,
                                                           (SpaceShip)FrameworkCore.level.Ships[k], wanderPos);
                    }

                    //construct a chain of spheres along this candidate path.
                    candidateIndex = 0;
                    Vector3 candidateDir = roundEndPos - ((SpaceShip)FrameworkCore.level.Ships[k]).Position;
                    candidateDir.Normalize();
                    int candidateRadius   = (int)Math.Round(((SpaceShip)FrameworkCore.level.Ships[k]).BSphere.Radius) + 3 /*buffer*/;
                    int candidateMoveDist = (int)Vector3.Distance(((SpaceShip)FrameworkCore.level.Ships[k]).Position,
                                                                  roundEndPos);
                    for (int w = 0; w < candidateSpheres.Length; w++)
                    {
                        if (candidateIndex >= candidateSpheres.Length)
                        {
                            break;
                        }

                        Vector3 candidatePos = ((SpaceShip)FrameworkCore.level.Ships[k]).Position +
                                               ((candidateDir * candidateRadius) * candidateIndex);

                        if (Vector3.Distance(((SpaceShip)FrameworkCore.level.Ships[k]).Position,
                                             candidatePos) > candidateMoveDist)
                        {
                            break;
                        }

                        candidateSpheres[w] = new BoundingSphere(candidatePos, candidateRadius);
                        candidateIndex++;
                    }

                    //check this candidate path against the pathSpheres array.
                    if (CheckPathSpheres(candidateSpheres, candidateIndex) &&
                        CheckPathHulks(candidateSpheres, candidateIndex))
                    {
                        foundValidPath = true;
                        break;
                    }
                }


                if (foundValidPath)
                {
                    //found a valid path vector!
                    //stuff the candidateSpheres into the pathSpheres array.
                    for (int h = 0; h < candidateIndex; h++)
                    {
                        pathSpheres[pathIndex] = candidateSpheres[h];
                        pathIndex++;
                    }

                    //commit the move order to the spaceship.
                    CommitMoveOrder((SpaceShip)FrameworkCore.level.Ships[k], currentEnemyTarget,
                                    roundEndPos);
                }
            }
        }
Beispiel #28
0
        public virtual void DrawHeadsUpDisplay(Camera camera, SpaceShip targetor)
        {
            // Draw Head's Up display box around ship.
            // If we are set to draw the HUD box!
            // We probably ONLY want to draw this box around the current target!
            // For now, since we have only one, logic is pretty easy!
            if (IsVisible(camera) && drawHudBox)
            {
                // Draw ship as a dot with a text tag in the distance
                Matrix  viewProj  = camera.View * camera.Projection;
                Vector4 screenPos = Vector4.Transform(position, viewProj);

                Vector2 screenViewport = new Vector2(GraphicsDevice.Viewport.Width, GraphicsDevice.Viewport.Height);

                float halfScreenY = screenViewport.Y / 2.0f;
                float halfScreenX = screenViewport.X / 2.0f;

                float screenY = ((screenPos.Y / screenPos.W) * halfScreenY) + halfScreenY;
                float screenX = ((screenPos.X / screenPos.W) * halfScreenX) + halfScreenX;

                hudVertices[0].Position.X = screenX - sizeInPixels;
                hudVertices[0].Position.Y = screenY - sizeInPixels;

                hudVertices[1].Position.X = screenX + sizeInPixels;
                hudVertices[1].Position.Y = screenY - sizeInPixels;

                hudVertices[2].Position.X = screenX + sizeInPixels;
                hudVertices[2].Position.Y = screenY + sizeInPixels;

                hudVertices[3].Position.X = screenX - sizeInPixels;
                hudVertices[3].Position.Y = screenY + sizeInPixels;

                hudVertices[4].Position.X = screenX - sizeInPixels;
                hudVertices[4].Position.Y = screenY - sizeInPixels;

                hudVB.SetData <VertexPositionColor>(hudVertices);

                hudEffect.Begin();
                hudEffect.Techniques[0].Passes[0].Begin();
                screenSize.SetValue(screenViewport);
                hudEffect.CommitChanges();

                GraphicsDevice.RenderState.DepthBufferEnable      = false;
                GraphicsDevice.RenderState.DepthBufferWriteEnable = false;

                GraphicsDevice.VertexDeclaration = hudDecl;
                GraphicsDevice.Vertices[0].SetSource(hudVB, 0, VertexPositionColor.SizeInBytes);

                GraphicsDevice.DrawPrimitives(PrimitiveType.LineStrip, 0, numHudLines);

                GraphicsDevice.Vertices[0].SetSource(null, 0, 0);

                GraphicsDevice.RenderState.DepthBufferEnable      = true;
                GraphicsDevice.RenderState.DepthBufferWriteEnable = true;

                hudEffect.Techniques[0].Passes[0].End();
                hudEffect.End();

                screenY = halfScreenY - ((screenPos.Y / screenPos.W) * halfScreenY);

                float range = (position - targetor.Position).Length();

                localSprites.Begin();
                if (range < 9999.0f)
                {
                    localSprites.DrawString(hudFont, range.ToString("0000", CultureInfo.CurrentCulture), new Vector2(screenX + sizeInPixels + 5, screenY - sizeInPixels), Color.Red);
                }
                else
                {
                    localSprites.DrawString(hudFont, "XXXX", new Vector2(screenX + sizeInPixels + 5, screenY - sizeInPixels), Color.Red);
                }

                localSprites.End();
            }
        }