Exemplo n.º 1
0
        private void TickLadder()
        {
            //!!!!!â òèï?
            const float ladderClimbingSpeedWalk = 1.5f;
            const float ladderClimbingSpeedRun  = 3;

            SphereDir lookDirection = SphereDir.Zero;
            {
                PlayerIntellect playerIntellect = Intellect as PlayerIntellect;
                if (playerIntellect != null)
                {
                    lookDirection = playerIntellect.LookDirection;
                }
            }

            bool wantMove =
                Intellect.IsControlKeyPressed(GameControlKeys.Forward) ||
                Intellect.IsControlKeyPressed(GameControlKeys.Backward) ||
                Intellect.IsControlKeyPressed(GameControlKeys.Left) ||
                Intellect.IsControlKeyPressed(GameControlKeys.Right);

            Ladder ladder = FindLadder(currentLadder != null, wantMove, lookDirection);

            if (ladder != currentLadder)
            {
                SetCurrentLadder(ladder);
            }

            if (currentLadder != null)
            {
                Line line = currentLadder.GetClimbingLine();

                Vec3 projected = MathUtils.ProjectPointToLine(line.Start, line.End, Position);

                Vec3 newPosition = projected;

                float climbingSpeed = IsNeedRun() ? ladderClimbingSpeedRun : ladderClimbingSpeedWalk;

                Vec3 moveVector = Vec3.Zero;

                float lookingSide = new Radian(lookDirection.Vertical).InDegrees() > -20 ? 1 : -1;
                moveVector.Z += Intellect.GetControlKeyStrength(GameControlKeys.Forward) * lookingSide;
                moveVector.Z -= Intellect.GetControlKeyStrength(GameControlKeys.Backward) * lookingSide;

                newPosition += moveVector * (TickDelta * climbingSpeed);

                Position = newPosition;

                if (mainBody != null)
                {
                    mainBody.LinearVelocity  = Vec3.Zero;
                    mainBody.AngularVelocity = Vec3.Zero;
                }
            }
        }
Exemplo n.º 2
0
 protected override void OnTick()
 {
     base.OnTick();
     ResetCar();
     TickCurrentGear();
     TickMotorSound();
     if (Type.CONF.Deformation)
     {
         if (attached_mesh != null)
         {
             attached_mesh.MeshObject.Mesh.SubMeshes[0].VertexData.GetSomeGeometry(ref changeable_vertex_pos,
                                                                                   ref changeable_vertex_norm);
             if (changeable_vertex_pos.Count != 0)
             {
                 if (Type.CONF.ParallelComputing)
                 {
                     DeformationMeshParallel();
                 }
                 else
                 {
                     DeformationMesh();
                 }
             }
         }
     }
     if (PhysicsModel != null)
     {
         float handbrake = 0;
         if (Intellect != null)
         {
             handbrake = Intellect.GetControlKeyStrength(GameControlKeys.VehicleHandbrake);
         }
         else
         {
             handbrake = 1;
         }
         if (!IsInAir() & handbrake != 0 &
             (PhysicsModel.Bodies[0].LinearVelocity.Length() * 3600.0f / 1000.0f) > 30)
         {
             SoundPlay3D(Type.CONF.SoundBrake, .7f, true);
             foreach (RibbonTrail rt in rtbrake)
             {
                 rt.Visible = true;
             }
         }
         else
         {
             foreach (RibbonTrail rt in rtbrake)
             {
                 rt.Visible = false;
             }
         }
     }
     first_tick = false;
 }
Exemplo n.º 3
0
        void TickIntellect()
        {
            //horizontalMotor
            {
                float throttle = 0;
                throttle += Intellect.GetControlKeyStrength(GameControlKeys.Left);
                throttle -= Intellect.GetControlKeyStrength(GameControlKeys.Right);

                GearedMotor motor = PhysicsModel.GetMotor("horizontalMotor") as GearedMotor;
                if (motor != null)
                {
                    motor.Throttle = throttle;
                }
            }

            //gibbetMotor
            {
                ServoMotor motor = PhysicsModel.GetMotor("gibbetMotor") as ServoMotor;
                if (motor != null)
                {
                    Radian needAngle = motor.DesiredAngle;

                    needAngle += Intellect.GetControlKeyStrength(GameControlKeys.Forward) * .004f;
                    needAngle -= Intellect.GetControlKeyStrength(GameControlKeys.Backward) * .004f;

                    MathFunctions.Clamp(ref needAngle,
                                        new Degree(-20.0f).InRadians(), new Degree(40.0f).InRadians());

                    motor.DesiredAngle = needAngle;
                }
            }

            //Change player LookDirection at rotation
            PlayerIntellect intellect = Intellect as PlayerIntellect;

            if (intellect != null)
            {
                Vec3 lookVector = intellect.LookDirection.GetVector();
                lookVector *= OldRotation.GetInverse();
                lookVector *= Rotation;
                intellect.LookDirection = SphereDir.FromVector(lookVector);
            }
        }
Exemplo n.º 4
0
        private void TickChassis()
        {
            bool onGround = leftTrack.onGround || rightTrack.onGround;

            OnGround = onGround;
            float leftTrackThrottle  = 0;
            float rightTrackThrottle = 0;

            if (Intellect != null)
            {
                Reset(false);
                Wheels();
                ShiftBooster();
                GearchangeDtime();

                //force for stability
                float speedkmph = GetRealSpeed() * 3;
                float speedpure = speedkmph - (speedkmph % 1);

                MapObjectAttachedBillboard ta1 = GetFirstAttachedObjectByAlias("tail1")
                                                 as MapObjectAttachedBillboard;

                MapObjectAttachedBillboard ta2 = GetFirstAttachedObjectByAlias("tail2")
                                                 as MapObjectAttachedBillboard;

                MapObjectAttachedBillboard ta3 = GetFirstAttachedObjectByAlias("tail3")
                                                 as MapObjectAttachedBillboard;

                MapObjectAttachedBillboard ta4 = GetFirstAttachedObjectByAlias("tail4")
                                                 as MapObjectAttachedBillboard;

                bool backlightred = false;
                bool backlightw   = false;

                {
                    ServoMotor THREF = PhysicsModel.GetMotor("FB") as ServoMotor;
                    Radian     FB    = 0;

                    float forward = Intellect.GetControlKeyStrength(GameControlKeys.Forward);
                    leftTrackThrottle  += forward;
                    rightTrackThrottle += forward;

                    float backward = Intellect.GetControlKeyStrength(GameControlKeys.Backward);
                    leftTrackThrottle  -= backward;
                    rightTrackThrottle -= backward;

                    if (Intellect.IsControlKeyPressed(GameControlKeys.Forward))
                    {
                        if (GetRealSpeed() < 0.01)
                        {
                            backlightred = true;
                        }
                        FB++;
                    }
                    else if (Intellect.IsControlKeyPressed(GameControlKeys.Backward))
                    {
                        FB--;
                        if (GetRealSpeed() > 0.5)
                        {
                            backlightred = true;
                        }
                        if (GetRealSpeed() < 0.01)
                        {
                            backlightw = true;
                        }
                    }

                    MathFunctions.Clamp(ref FB,
                                        new Degree(-1.0f).InRadians(), new Degree(1.0f).InRadians());

                    THREF.DesiredAngle = FB;
                    if (ta1 != null)
                    {
                        ta1.Visible = backlightred;
                        ta2.Visible = backlightred;
                        ta3.Visible = backlightw;
                        ta4.Visible = backlightw;
                    }
                }
                {
                    ServoMotor wmotor   = PhysicsModel.GetMotor("wheel") as ServoMotor;
                    ServoMotor wmotor_2 = PhysicsModel.GetMotor("wheel2") as ServoMotor;

                    Radian needAngle = wmotor.DesiredAngle;

                    float left  = Intellect.GetControlKeyStrength(GameControlKeys.Left);
                    float right = Intellect.GetControlKeyStrength(GameControlKeys.Right);

                    if (left > 0)
                    {
                        needAngle -= 0.06f;
                    }
                    else if (right > 0)
                    {
                        needAngle += 0.06f;
                    }
                    else
                    {
                        needAngle = 0f;
                    }

                    float TBaseForce = 0;
                    float Pspeed     = GetRealSpeed();
                    if (Pspeed < 0)
                    {
                        Pspeed = -Pspeed;
                    }
                    TBaseForce = left + (-right);

                    float speedcoef = 1;
                    if (GetRealSpeed() < 10 && GetRealSpeed() > -10)
                    {
                        speedcoef = GetRealSpeed() / 10;
                    }

                    if (speedcoef < 0)
                    {
                        speedcoef = -speedcoef;
                    }

                    if (!Intellect.IsControlKeyPressed(GameControlKeys.Forward) && !Intellect.IsControlKeyPressed(GameControlKeys.Backward) && speedcoef != 1)
                    {
                        TBaseForce = TBaseForce * 1.5f;
                    }

                    if (GetRealSpeed() < 0)
                    {
                        TBaseForce = -TBaseForce;
                    }

                    float SpeedD = 120 / GetRealSpeed();
                    MathFunctions.Clamp(ref SpeedD, 1, 1.6f);
                    float TMainForce = TBaseForce * chassisBody.Mass * SpeedD * 10;

                    if (OnGround)
                    {
                        chassisBody.AddForce(ForceType.LocalTorque, TickDelta,
                                             new Vec3(0, 0, TMainForce * speedcoef * 2), Vec3.Zero);
                    }

                    MathFunctions.Clamp(ref needAngle,
                                        new Degree(-29.0f).InRadians(), new Degree(29.0f).InRadians());

                    if (wmotor != null)
                    {
                        wmotor.DesiredAngle   = needAngle;
                        wmotor_2.DesiredAngle = needAngle;
                    }
                }
            }

            Vec3 localLinearVelocity = chassisBody.LinearVelocity * chassisBody.Rotation.GetInverse();

            //add drive force

            float slopeForwardForceCoeffient;
            float slopeBackwardForceCoeffient;
            float slopeLinearDampingAddition;

            {
                Vec3   dir        = chassisBody.Rotation.GetForward();
                Radian slopeAngle = MathFunctions.ATan(dir.Z, dir.ToVec2().Length());
                Radian maxAngle   = MathFunctions.PI / 4;//new Degree(45)

                slopeForwardForceCoeffient = 1;
                if (slopeAngle > maxAngle)
                {
                    slopeForwardForceCoeffient = 0;
                }

                slopeBackwardForceCoeffient = 1;
                if (slopeAngle < -maxAngle)
                {
                    slopeBackwardForceCoeffient = 0;
                }

                MathFunctions.Clamp(ref slopeForwardForceCoeffient, 0, 1);
                MathFunctions.Clamp(ref slopeBackwardForceCoeffient, 0, 1);

                slopeLinearDampingAddition = localLinearVelocity.X > 0 ? slopeAngle : -slopeAngle;
                //slopeLinearDampingAddition *= 1;
                if (slopeLinearDampingAddition < 0)
                {
                    slopeLinearDampingAddition = 0;
                }
            }

            if (leftTrack.onGround)
            {
                if (leftTrackThrottle > 0 && localLinearVelocity.X < Type.MaxForwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? currentGear.GearDriveForwardForce + NOSBoost + DownPower : currentGear.GearBrakeForce;
                    force *= leftTrackThrottle;
                    force *= slopeForwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, tracksPositionYOffset, 0));
                }

                if (leftTrackThrottle < 0 && (-localLinearVelocity.X) < Type.MaxBackwardSpeed)
                {
                    float force = currentGear.GearBrakeForce; //: Type.DriveBackwardForce;
                    force *= leftTrackThrottle;
                    force *= slopeBackwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, tracksPositionYOffset, 0));
                }
            }

            if (rightTrack.onGround)
            {
                if (rightTrackThrottle > 0 && localLinearVelocity.X < Type.MaxForwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? currentGear.GearDriveForwardForce + NOSBoost + DownPower : currentGear.GearBrakeForce;
                    force *= rightTrackThrottle;
                    force *= slopeForwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, -tracksPositionYOffset, 0));
                }

                if (rightTrackThrottle < 0 && (-localLinearVelocity.X) < Type.MaxBackwardSpeed)
                {
                    float force = currentGear.GearBrakeForce; //: Type.DriveBackwardForce;
                    force *= rightTrackThrottle;
                    force *= slopeBackwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, -tracksPositionYOffset, 0));
                }
            }

            //LinearVelocity
            if (onGround && localLinearVelocity != Vec3.Zero)
            {
                Vec3 velocity = localLinearVelocity;
                velocity.Y = 0;
                chassisBody.LinearVelocity = chassisBody.Rotation * velocity;
            }

            bool stop = false; // onGround && leftTrackThrottle == 0 && rightTrackThrottle == 0;

            bool noLinearVelocity  = chassisBody.LinearVelocity.Equals(Vec3.Zero, .2f);
            bool noAngularVelocity = chassisBody.AngularVelocity.Equals(Vec3.Zero, .2f);

            //AngularDamping
            if (onGround)
            {
                //LinearDamping
                float linearDamping;
                if (stop)
                {
                    linearDamping = noLinearVelocity ? 1 : 1;
                }
                else
                {
                    linearDamping = .15f;
                }
                chassisBody.LinearDamping = linearDamping + slopeLinearDampingAddition;

                if (stop && noAngularVelocity)
                {
                    chassisBody.AngularDamping = 5;
                }
                else
                {
                    chassisBody.AngularDamping = 1;
                }
            }
            else
            {
                chassisBody.AngularDamping = 0.55f;
                chassisBody.LinearDamping  = 0.05f;
            }
        }
Exemplo n.º 5
0
        private void TickIntellect(Intellect intellect)
        {
            Vec2 forceVec = Vec2.Zero;

            if (forceMoveVectorTimer != 0)
            {
                forceVec = forceMoveVector;
            }
            else
            {
                Vec2 vec = Vec2.Zero;

                vec.X += intellect.GetControlKeyStrength(GameControlKeys.Forward);
                vec.X -= intellect.GetControlKeyStrength(GameControlKeys.Backward);
                vec.Y += intellect.GetControlKeyStrength(GameControlKeys.Left);
                vec.Y -= intellect.GetControlKeyStrength(GameControlKeys.Right);

                forceVec = (new Vec3(vec.X, vec.Y, 0) * Rotation).ToVec2();

                if (forceVec != Vec2.Zero)
                {
                    float length = forceVec.Length();
                    if (length > 1)
                        forceVec /= length;
                }
            }

            if (forceVec != Vec2.Zero)
            {
                float velocityCoefficient = 1;
                if (FastMoveInfluence != null)
                    velocityCoefficient = FastMoveInfluence.Type.Coefficient;

                float maxVelocity;
                float force;

                if (IsOnGround())
                {
                    maxVelocity = Type.WalkMaxVelocity;
                    force = Type.WalkForce;
                }
                else
                {
                    maxVelocity = Type.FlyControlMaxVelocity;
                    force = Type.FlyControlForce;
                }

                maxVelocity *= forceVec.Length();

                //velocityCoefficient
                maxVelocity *= velocityCoefficient;
                force *= velocityCoefficient;

                if (mainBody.LinearVelocity.Length() < maxVelocity)
                    mainBody.AddForce(ForceType.Global, 0, new Vec3(forceVec.X, forceVec.Y, 0) *
                        force * TickDelta, Vec3.Zero);
            }

            if (!Z) return;

            CapsuleShape maincap = mainBody.Shapes[1] as CapsuleShape;
            CapsuleShape downcap = mainBody.Shapes[2] as CapsuleShape;

            if (Intellect.IsControlKeyPressed(GameControlKeys.Croutch))
            {
                croutch = true;
                Type.Height = Type.HeightMax / 3;
            }
            else if (Type.FPSCameraOffset != new Vec3(0, 0, -0.5f))
            {
                Type.Height = Type.HeightMax;
                croutch = false;
            }
            float length2 = Type.Height - Type.Radius * 2 - Type.WalkUpHeight;
            if (croutch)
            {
                Type.FPSCameraOffset = Vec3.Zero;
                Type.WalkMaxVelocity = 3;
                Type.WalkForce = 3000f;
                maincap.Position = new Vec3(0, 0, -0.5f);
                maincap.Length = length2 / 2;

                downcap.Position = new Vec3(0, 0, -0.5f);
                downcap.Length = 1.2f;
            }
            else if (!croutch && Type.FPSCameraOffset != new Vec3(0, 0, -0.5f))
            {
                Type.WalkMaxVelocity = 7;
                Type.WalkForce = 6000f;
                Type.FPSCameraOffset = new Vec3(0, 0, 0.5f);
                maincap.Length = length2;
                maincap.Position = Vec3.Zero;

                downcap.Length = Type.Height - Type.BottomRadius * 2;
                downcap.Position = new Vec3(0, 0,
                    (Type.Height - Type.WalkUpHeight) / 2 - Type.Height / 2);
            }
            TickRun();
            lastTickForceVector = forceVec;

            //Update Run energy
            if (EntitySystemWorld.Instance.IsServer() &&
              Type.NetworkType == EntityNetworkTypes.Synchronized)
            {
                Server_SendUpdateRunEnergyToClients(
                            EntitySystemWorld.Instance.RemoteEntityWorlds);
            }
        }
Exemplo n.º 6
0
        private void TickIntellect()
        {
            //GUItest();
            JetEngineBooster();

            VSI = AKJetBody.LinearVelocity.Z - (AKJetBody.LinearVelocity.Z % 1);
            float speed = GetRealSpeed();
            float ControlersRatio;

            MapObjectAttachedParticle ENBoosterParticle2 = GetFirstAttachedObjectByAlias("JetFire") as MapObjectAttachedParticle;
            AKunit akunit = GetPlayerUnit() as AKunit;

            Vec3 dir = AKJetBody.Rotation.GetForward();

            AKJetOn = Intellect != null && Intellect.IsActive();

            MASS = 0;
            foreach (Body body in PhysicsModel.Bodies)
            {
                MASS += body.Mass;
            }

            // controlers Ratio
            if (speed > 0)
            {
                ControlersRatio = speed / 80;
                if (ControlersRatio > 1)
                {
                    ControlersRatio = 1;
                }
            }
            else
            {
                ControlersRatio = 0;
            }
            // controlers Ratio

            //////////////////////// WING WING WING WING WING WING WING WING WING WING WING /////////////////////////////////
            //wing General
            Angles BodyAngles = Rotation.GetInverse().ToAngles();

            float normalizeRoll = BodyAngles.Roll;

            if (normalizeRoll < 0)
            {
                normalizeRoll = -normalizeRoll;
            }

            float PitchUp = -BodyAngles.Pitch;

            if (PitchUp < 0)
            {
                PitchUp = 0;
            }

            if (PitchUp > 90)
            {
                PitchUp = 90 - (PitchUp - 90);
            }

            float PitchDown = BodyAngles.Pitch;

            if (PitchDown < 0)
            {
                PitchDown = 0;
            }

            if (PitchDown > 90)
            {
                PitchDown = 90 - (PitchDown - 90);
            }

            //End of Wing GENERAL

            //Wing Anti Gravity Force & Stall
            float WingUpForce;

            if (speed < 40f)
            {
                //stall
                if (VSI < 0 && PitchUp > 35f)
                {
                    Stall = true;
                }
                else
                {
                    Stall = false;
                }

                //force
                WingUpForce = ((speed / 4f) - 0.2f);
            }
            else if (speed > 40f)
            {
                WingUpForce = -PhysicsWorld.Instance.MainScene.Gravity.Z;
                //WingUpForce = 9.8f; //TODO:Incin change to map gravity
            }
            else
            {
                WingUpForce = 0;
            }

            //antigrav
            AKJetBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                               AKJetBody.Rotation * new Vec3(0, 0, WingUpForce) * MASS, Vec3.Zero);

            //antivelo
            AKJetBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                               AKJetBody.Rotation * new Vec3((-WingUpForce * PitchUp / 9) / 4, 0, 0) * MASS, Vec3.Zero);

            //END oF Wing Anit Gravity Force & Stall
            //Wing Decenging Force

            float DecendSpeedForce;

            if (VSI < 0 && PitchUp == 0)
            {
                DecendSpeedForce = (180 - normalizeRoll) + PitchDown;

                AKJetBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                   AKJetBody.Rotation * new Vec3(DecendSpeedForce / 20, 0, 0) * MASS, Vec3.Zero);
            }

            //End of Wing Decenging Force
            /////// END END END ///OF OF OF/// WING WING WING WING WING WING WING WING WING WING WING //////////////////////////////

            //engine force + sound pitch control
            if (Intellect.IsControlKeyPressed(GameControlKeys.Jump))
            {
                if (akunit != null)
                {
                    akunit.GunsTryFire(false);
                }
            }

            if (Intellect.IsControlKeyPressed(GameControlKeys.Forward))
            {
                force += forceadd;
            }
            if (Intellect.IsControlKeyPressed(GameControlKeys.Backward))
            {
                force -= forceadd;
            }

            if (ENBoosterParticle2 != null)
            {
                if (force > 85f)
                {
                    ENBoosterParticle2.Visible = true;
                }
                else
                {
                    ENBoosterParticle2.Visible = false;
                }
            }

            enpitch = (force / 80f);
            MathFunctions.Clamp(ref force, 0.1f, 100);
            MathFunctions.Clamp(ref enpitch, 0.8f, 1.3f);

            //update jet channel position and pitch
            if (rotorSoundChannel != null)
            {
                //update channel
                rotorSoundChannel.Pitch    = enpitch;
                rotorSoundChannel.Volume   = 1;
                rotorSoundChannel.Position = Position;
                //rotorSoundChannel.MinDistance = 10;
            }

            //end of engine force + sound pitch control

            //Forces
            ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

            //start jet Pitch (Y turn)
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Up) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Down))
            {
                float AUp   = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Up) / 2;
                float ADown = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Down) / 2;
                Hpitch += (AUp - ADown);
                MathFunctions.Clamp(ref Hpitch, -10, 10);
            }
            else
            {
                if (Hpitch != 0)
                {
                    Hpitch -= Hpitch / 5;

                    if ((Hpitch - (Hpitch % 1)) == 0)
                    {
                        Hpitch = 0;
                    }
                }
                else
                {
                    float mammadpitch = (AKJetBody.AngularVelocity * AKJetBody.Rotation.GetInverse()).Y * 2;

                    MathFunctions.Clamp(ref mammadpitch, -10f, 10);
                    AKJetBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                       AKJetBody.Rotation * new Vec3(0, 0, -mammadpitch) * MASS, new Vec3(-8, 0, 0));
                }
            }

            if (Hpitch != 0)
            {
                AKJetBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                   AKJetBody.Rotation * new Vec3(0, ((Hpitch) * ControlersRatio), 0) * MASS, Vec3.Zero);
            }
            //end of jet pitch (Y turn)

            //start jet Z turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Right) || Intellect.IsControlKeyPressed(GameControlKeys.Left))
            {
                float right = Intellect.GetControlKeyStrength(GameControlKeys.Right) / 2;
                float left  = Intellect.GetControlKeyStrength(GameControlKeys.Left) / 2;
                TrunZ += (left - right);
                MathFunctions.Clamp(ref TrunZ, -10, 10);
            }
            else
            {
                if (TrunZ != 0)
                {
                    TrunZ -= TrunZ / 5;

                    if ((TrunZ - (TrunZ % 1)) == 0)
                    {
                        TrunZ = 0;
                    }
                }
            }

            if (TrunZ != 0)
            {
                AKJetBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                   AKJetBody.Rotation * new Vec3(0, 0, (TrunZ * 2) * ControlersRatio) * MASS, Vec3.Zero);
            }
            //end of jet Z turn

            //start jet X turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Right) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Left))
            {
                float rightX = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Right) / 2;
                float leftX  = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Left) / 2;
                TrunX += (rightX - leftX);
                MathFunctions.Clamp(ref TrunX, -10, 10);
            }
            else
            {
                if (TrunX != 0)
                {
                    TrunX -= TrunX / 5;

                    if ((TrunX - (TrunX % 1)) == 0)
                    {
                        TrunX = 0;
                    }
                }
            }

            if (TrunX != 0)
            {
                AKJetBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                   AKJetBody.Rotation * new Vec3(((TrunX * 2) * ControlersRatio), 0, 0) * MASS, Vec3.Zero);
            }

            //Pitch on Turn Pitch

            //float TurnPitch = AKJetBody.Rotation.GetInverse().ToAngles().Roll; //1 - Rotation.GetUp().Z;
            //if (TurnPitch < 0) TurnPitch = -TurnPitch;
            //if (TurnPitch > 90) TurnPitch = 90 - (TurnPitch - 90);

            //AKJetBody.AddForce(ForceType.GlobalTorque, TickDelta,
            //       AKJetBody.Rotation * new Vec3(0, ((-TurnPitch /90) * ControlersRatio), 0) * MASS, Vec3.Zero);

            //End of Pitch on Turn
            //end of jet X turn

            //start of adding main Engine force

            MathFunctions.Clamp(ref force, 0.1f, 100);

            //if Max Alt is not reached add jet motor force
            if (AKJetBody.Position.Z < Type.MaxAlt)
            {
                float FinalEngineForce = (force / 2f) - ((PitchUp / 90) * 30);

                AKJetBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                   new Vec3(FinalEngineForce, 0, 0) * MASS, Vec3.Zero);
            }

            //dampings
            AKJetBody.AngularDamping = 2f + (speed / 60);
            AKJetBody.LinearDamping  = 0.4f;
        }
Exemplo n.º 7
0
        private void TickIntellect()
        {
            GUIshit();
            MapObjectAttachedParticle JetFire1 = GetFirstAttachedObjectByAlias("JetFire1") as MapObjectAttachedParticle;
            MapObjectAttachedParticle JetFire2 = GetFirstAttachedObjectByAlias("JetFire2") as MapObjectAttachedParticle;
            float speed = GetRealSpeed();

            AKunit akunit = GetPlayerUnit() as AKunit;

            Vec3   dir        = AKVTOLBody.Rotation.GetForward();
            Radian slopeAngle = MathFunctions.ATan(dir.Z, dir.ToVec2().Length());

            MASS = 0;
            foreach (Body body in PhysicsModel.Bodies)
            {
                MASS += body.Mass;
            }

            ShiftBooster();

            AKVTOLOn = Intellect != null && Intellect.IsActive();
            // GUItest();
            ALTray();

            //engine force + sound pitch control
            if (Intellect.IsControlKeyPressed(GameControlKeys.Jump))
            {
                if (akunit != null)
                {
                    akunit.GunsTryFire(false);
                }
            }

            if (Intellect.IsControlKeyPressed(GameControlKeys.Forward))
            {
                force += forceadd;
            }
            else if (Intellect.IsControlKeyPressed(GameControlKeys.Backward))
            {
                force -= forceadd;
            }
            else
            {
            }

            if (Intellect.IsControlKeyPressed(GameControlKeys.VerticleTakeOff_L_EngineUp))
            {
                EngineDir += 2f;
            }
            else if (Intellect.IsControlKeyPressed(GameControlKeys.VerticleTakeOff_L_EngineDown))
            {
                EngineDir -= 2f;
            }
            else
            {
            }

            MathFunctions.Clamp(ref EngineDir, 0, 90);

            EngineApp.Instance.ScreenGuiRenderer.AddText("Throttle: " + force, new Vec2(.6f, .1f));

            if (JetFire1 != null && JetFire2 != null)
            {
                if (force > 85f)
                {
                    JetFire1.Visible = true;
                    JetFire2.Visible = true;
                }
                else
                {
                    JetFire1.Visible = false;
                    JetFire2.Visible = false;
                }
            }

            enpitch = 0.8f + (0.6f * (force / 100));
            MathFunctions.Clamp(ref force, 0.1f, 100);
            MathFunctions.Clamp(ref enpitch, 0.8f, 1.4f);

            //update jet channel position and pitch
            if (rotorSoundChannel != null)
            {
                //update channel
                rotorSoundChannel.Pitch    = enpitch;
                rotorSoundChannel.Volume   = 1;
                rotorSoundChannel.Position = Position;
                //rotorSoundChannel.MinDistance = 10;
            }

            //end of engine force + sound pitch control

            //Forces
            ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

            //start VTOL Pitch (Y turn)
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Up) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Down))
            {
                float AUp   = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Up) / 2;
                float ADown = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Down) / 2;
                Hpitch += (AUp - ADown);
                MathFunctions.Clamp(ref Hpitch, -10, 10);
            }
            else
            {
                if (Hpitch != 0)
                {
                    Hpitch -= Hpitch / 5;

                    if ((Hpitch - (Hpitch % 1)) == 0)
                    {
                        Hpitch = 0;
                    }
                }
                else
                {
                    float mammadpitch = (AKVTOLBody.AngularVelocity * AKVTOLBody.Rotation.GetInverse()).Y * 2;

                    MathFunctions.Clamp(ref mammadpitch, -10f, 10);
                    AKVTOLBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                        AKVTOLBody.Rotation * new Vec3(0, 0, -mammadpitch) * MASS, new Vec3(-8, 0, 0));

                    EngineApp.Instance.ScreenGuiRenderer.AddText("MammadPitch: " + mammadpitch.ToString(), new Vec2(.1f, .2f));
                }
            }

            if (Hpitch != 0)
            {
                AKVTOLBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                    AKVTOLBody.Rotation * new Vec3(0, Hpitch, 0) * MASS, Vec3.Zero);
            }
            //end of VTOL pitch (Y turn)

            //start jet Z turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Right) || Intellect.IsControlKeyPressed(GameControlKeys.Left))
            {
                float right = Intellect.GetControlKeyStrength(GameControlKeys.Right) / 2;
                float left  = Intellect.GetControlKeyStrength(GameControlKeys.Left) / 2;
                TrunZ += (left - right);
                MathFunctions.Clamp(ref TrunZ, -10, 10);

                AKVTOLBody.AddForce(ForceType.LocalTorque, TickDelta,
                                    new Vec3(0, 0, TrunZ * 2) * MASS, Vec3.Zero);
            }
            else
            {
                TrunZ = 0;
            }
            //end of jet Z turn

            //start jet X turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Right) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Left))
            {
                float rightX = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Right) / 2;
                float leftX  = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Left) / 2;
                TrunX += (rightX - leftX);
                MathFunctions.Clamp(ref TrunX, -10, 10);

                AKVTOLBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                    AKVTOLBody.Rotation * new Vec3(TrunX * 2, 0, 0) * MASS, Vec3.Zero);
            }
            else
            {
                TrunX = 0;
            }

            float SHOOT = AKVTOLBody.Rotation.GetInverse().ToAngles().Roll; //1 - Rotation.GetUp().Z;

            if (SHOOT < 0)
            {
                SHOOT = -SHOOT;
            }
            if (SHOOT > 90)
            {
                SHOOT = 90 - (SHOOT - 90);
            }

            AKVTOLBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                AKVTOLBody.Rotation * new Vec3(0, 0, -SHOOT / 180) * MASS, new Vec3(-8, 0, 0));

            //end of jet X turn

            //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
            //adding anty  Y movment force
            float Yshit = (AKVTOLBody.LinearVelocity * Rotation.GetInverse()).Y;

            EngineApp.Instance.ScreenGuiRenderer.AddText("Yshit: " + Yshit.ToString(), new Vec2(.6f, .3f));
            EngineApp.Instance.ScreenGuiRenderer.AddText("roll: " + Rotation.ToAngles().Roll, new Vec2(.6f, .35f));
            EngineApp.Instance.ScreenGuiRenderer.AddText("roll: " + (Rotation.GetInverse().ToAngles()).ToString(), new Vec2(.6f, .4f));
            EngineApp.Instance.ScreenGuiRenderer.AddText("Edir: " + EngineDir.ToString(), new Vec2(.1f, .6f));

            //start of adding force

            MathFunctions.Clamp(ref force, 0.1f, 100);

            EngineApp.Instance.ScreenGuiRenderer.AddText("speed: " + GetRealSpeed().ToString(), new Vec2(.6f, .15f));
            GUItest();
            //anti gravity when jet have speed (wings force)

            float antyshityforcy = GetRealSpeed() / 10;

            float slopeangleshit = 1.5f;

            MathFunctions.Clamp(ref antyshityforcy, 0, 10);
            if (slopeAngle > 0)
            {
                slopeangleshit = 1.5f - slopeAngle;
            }
            else
            {
                slopeangleshit = 0.5f;
            }

            if (GetRealSpeed() > 0)
            {
                AKVTOLBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                    new Vec3(0, 0, antyshityforcy * slopeangleshit) * MASS, Vec3.Zero);
            }

            //if Max Alt is not reached add jet motor force
            if (AKVTOLBody.Position.Z < Type.MaxAlt)
            {
                AKVTOLBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                    AKVTOLBody.Rotation * new Vec3(force / 2f * ((90 - EngineDir) / 90), 0, force / 8f * (EngineDir / 90)) * MASS, Vec3.Zero);
            }

            //dampings
            AKVTOLBody.AngularDamping = 2f + (speed / 60);
            AKVTOLBody.LinearDamping  = 0.6f;

            ServoMotor Lenginem = PhysicsModel.GetMotor("LEngineM") as ServoMotor;
            ServoMotor Renginem = PhysicsModel.GetMotor("REngineM") as ServoMotor;

            if (Lenginem != null && Renginem != null)
            {
                float EngingDirRad = EngineDir * MathFunctions.PI / 180;
                Renginem.DesiredAngle = EngingDirRad;
                Lenginem.DesiredAngle = EngingDirRad;
            }
        }
Exemplo n.º 8
0
        private void TickChassis()
        {
            bool onGround = leftTrack.onGround || rightTrack.onGround;

            float leftTrackThrottle  = 0;
            float rightTrackThrottle = 0;

            if (Intellect != null)
            {
                float forward = Intellect.GetControlKeyStrength(GameControlKeys.Forward);
                leftTrackThrottle  += forward;
                rightTrackThrottle += forward;

                float backward = Intellect.GetControlKeyStrength(GameControlKeys.Backward);
                leftTrackThrottle  -= backward;
                rightTrackThrottle -= backward;

                float left = Intellect.GetControlKeyStrength(GameControlKeys.Left);
                leftTrackThrottle  -= left * 2;
                rightTrackThrottle += left * 2;

                float right = Intellect.GetControlKeyStrength(GameControlKeys.Right);
                leftTrackThrottle  += right * 2;
                rightTrackThrottle -= right * 2;

                MathFunctions.Clamp(ref leftTrackThrottle, -1, 1);
                MathFunctions.Clamp(ref rightTrackThrottle, -1, 1);
            }

            //return if no throttle and sleeping
            if (chassisBody.Sleeping && rightTrackThrottle == 0 && leftTrackThrottle == 0)
            {
                return;
            }

            Vec3 localLinearVelocity = chassisBody.LinearVelocity * chassisBody.Rotation.GetInverse();

            //add drive force

            float slopeForwardForceCoeffient;
            float slopeBackwardForceCoeffient;
            float slopeLinearDampingAddition;

            {
                Vec3   dir        = chassisBody.Rotation.GetForward();
                Radian slopeAngle = MathFunctions.ATan(dir.Z, dir.ToVec2().Length());

                Radian maxAngle = MathFunctions.PI / 4;//new Degree(45)

                slopeForwardForceCoeffient = 1;
                if (slopeAngle > maxAngle)
                {
                    slopeForwardForceCoeffient = 0;
                }

                slopeBackwardForceCoeffient = 1;
                if (slopeAngle < -maxAngle)
                {
                    slopeBackwardForceCoeffient = 0;
                }

                MathFunctions.Clamp(ref slopeForwardForceCoeffient, 0, 1);
                MathFunctions.Clamp(ref slopeBackwardForceCoeffient, 0, 1);

                slopeLinearDampingAddition = localLinearVelocity.X > 0 ? slopeAngle : -slopeAngle;
                //slopeLinearDampingAddition *= 1;
                if (slopeLinearDampingAddition < 0)
                {
                    slopeLinearDampingAddition = 0;
                }
            }

            if (leftTrack.onGround)
            {
                if (leftTrackThrottle > 0 && localLinearVelocity.X < Type.MaxForwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? Type.DriveForwardForce : Type.BrakeForce;
                    force *= leftTrackThrottle;
                    force *= slopeForwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, tracksPositionYOffset, 0));
                }

                if (leftTrackThrottle < 0 && (-localLinearVelocity.X) < Type.MaxBackwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? Type.BrakeForce : Type.DriveBackwardForce;
                    force *= leftTrackThrottle;
                    force *= slopeBackwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, tracksPositionYOffset, 0));
                }
            }

            if (rightTrack.onGround)
            {
                if (rightTrackThrottle > 0 && localLinearVelocity.X < Type.MaxForwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? Type.DriveForwardForce : Type.BrakeForce;
                    force *= rightTrackThrottle;
                    force *= slopeForwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, -tracksPositionYOffset, 0));
                }

                if (rightTrackThrottle < 0 && (-localLinearVelocity.X) < Type.MaxBackwardSpeed)
                {
                    float force = localLinearVelocity.X > 0 ? Type.BrakeForce : Type.DriveBackwardForce;
                    force *= rightTrackThrottle;
                    force *= slopeBackwardForceCoeffient;
                    chassisBody.AddForce(ForceType.LocalAtLocalPos, TickDelta,
                                         new Vec3(force, 0, 0), new Vec3(0, -tracksPositionYOffset, 0));
                }
            }

            //LinearVelocity
            if (onGround && localLinearVelocity != Vec3.Zero)
            {
                Vec3 velocity = localLinearVelocity;
                velocity.Y = 0;
                chassisBody.LinearVelocity = chassisBody.Rotation * velocity;
            }

            bool stop = onGround && leftTrackThrottle == 0 && rightTrackThrottle == 0;

            bool noLinearVelocity  = chassisBody.LinearVelocity.Equals(Vec3.Zero, .2f);
            bool noAngularVelocity = chassisBody.AngularVelocity.Equals(Vec3.Zero, .2f);

            //LinearDamping
            float linearDamping;

            if (stop)
            {
                linearDamping = noLinearVelocity ? 5 : 1;
            }
            else
            {
                linearDamping = .15f;
            }
            chassisBody.LinearDamping = linearDamping + slopeLinearDampingAddition;

            //AngularDamping
            if (onGround)
            {
                if (stop && noAngularVelocity)
                {
                    chassisBody.AngularDamping = 5;
                }
                else
                {
                    chassisBody.AngularDamping = 1;
                }
            }
            else
            {
                chassisBody.AngularDamping = .15f;
            }

            //sleeping
            if (!chassisBody.Sleeping && stop && noLinearVelocity && noAngularVelocity)
            {
                chassisSleepTimer += TickDelta;
                if (chassisSleepTimer > 1)
                {
                    chassisBody.Sleeping = true;
                }
            }
            else
            {
                chassisSleepTimer = 0;
            }
        }
Exemplo n.º 9
0
        private Vec2 GetMovementByControlKeys()
        {
            Vec2 localVector = Vec2.Zero;

            if (EntitySystemWorld.Instance.IsServer() || EntitySystemWorld.Instance.IsDedicatedServer())
            {
                PlayerManager.ServerOrSingle_Player player = null;
                player = PlayerManager.Instance.ServerOrSingle_GetPlayer(Intellect);
                if (GameMap.Instance != null && player.Intellect == Intellect)                  //PlayerIntellect.Instance == Intellect)
                {
                    localVector.X -= Intellect.GetControlKeyStrength(GameControlKeys.Forward);  // +this.Type.SpeedForward;
                    localVector.X += Intellect.GetControlKeyStrength(GameControlKeys.Backward); // +this.Type.SpeedBackward;
                    localVector.Y -= Intellect.GetControlKeyStrength(GameControlKeys.Left);     // +this.Type.SpeedLeft;
                    localVector.Y += Intellect.GetControlKeyStrength(GameControlKeys.Right);    // +this.Type.SpeedRight;

                    if (localVector != Vec2.Zero)
                    {
                        Vec2   diff     = Position.ToVec2() - TurnToPosition.ToVec2();;// *Rotation.GetForward().ToVec2();//RendererWorld.Instance.DefaultCamera.Position.ToVec2();
                        Degree angle    = new Radian(MathFunctions.ATan(diff.Y, diff.X));
                        Degree vecAngle = new Radian(MathFunctions.ATan(-localVector.Y, localVector.X));
                        Quat   rot      = new Angles(0, 0, vecAngle - angle).ToQuat();
                        Vec2   vector   = (rot * new Vec3(1, 0, 0)).ToVec2();
                        return(vector);
                    }
                    else
                    {
                        return(Vec2.Zero);
                    }
                }
                return(Vec2.Zero);
            }
            else if (EntitySystemWorld.Instance.IsSingle())
            {
                if (GameMap.Instance != null && PlayerIntellect.Instance == Intellect)
                {
                    localVector.X -= Intellect.GetControlKeyStrength(GameControlKeys.Forward);  // +this.Type.SpeedForward;
                    localVector.X += Intellect.GetControlKeyStrength(GameControlKeys.Backward); // +this.Type.SpeedBackward;
                    localVector.Y -= Intellect.GetControlKeyStrength(GameControlKeys.Left);     // +this.Type.SpeedLeft;
                    localVector.Y += Intellect.GetControlKeyStrength(GameControlKeys.Right);    // +this.Type.SpeedRight;

                    if (localVector != Vec2.Zero)
                    {
                        Vec2   diff     = Position.ToVec2() - TurnToPosition.ToVec2();;// *Rotation.GetForward().ToVec2();//RendererWorld.Instance.DefaultCamera.Position.ToVec2();
                        Degree angle    = new Radian(MathFunctions.ATan(diff.Y, diff.X));
                        Degree vecAngle = new Radian(MathFunctions.ATan(-localVector.Y, localVector.X));
                        Quat   rot      = new Angles(0, 0, vecAngle - angle).ToQuat();
                        Vec2   vector   = (rot * new Vec3(1, 0, 0)).ToVec2();
                        return(vector);
                    }
                    else
                    {
                        return(Vec2.Zero);
                    }
                }
                return(Vec2.Zero);
            }
            return(Vec2.Zero);
            ////    if (localVector != Vec2.Zero)
            ////    {
            ////        localVector.Normalize();

            ////        //calculate force vector with considering camera orientation
            ////        Vec2 diff = Position.ToVec2() - RendererWorld.Instance.DefaultCamera.Position.ToVec2();
            ////        //new Vec3( RendererWorld.Instance.DefaultCamera.Position.X,RendererWorld.Instance.DefaultCamera.Position.Y, Damager_Ball_Player.Position.Z);
            ////        //diff.Z += this.Type.BallRadius;

            ////        Degree angle = new Radian(MathFunctions.ATan(diff.Y, diff.X));
            ////        Degree vecAngle = new Radian(MathFunctions.ATan(-vec.Y, vec.X));
            ////        Quat rot = new Angles(0, 0, vecAngle - angle).ToQuat();

            ////        Vec2 forceVector2 = (rot * new Vec3(1, 0, 0)).ToVec2();

            ////        Vec2 forceVector = new Vec2(forceVector2.X, forceVector2.Y);

            ////        return forceVector;
            ////    }
            ////    else return vec;
            ////}
            ////else
            ////    return vec;
        }
Exemplo n.º 10
0
        private void TickIntellect()
        {
            ShiftBooster();

            HelliOn = Intellect != null && Intellect.IsActive();
            // GUItest();

            //finding motors
            GearedMotor main = PhysicsModel.GetMotor("hellimain") as GearedMotor;
            GearedMotor back = PhysicsModel.GetMotor("helliback") as GearedMotor;

            if (HelliOn)
            {
                main.Enabled = true;
                back.Enabled = true;
            }

            //engine force + sound pitch control

            if (Intellect.IsControlKeyPressed(GameControlKeys.Forward))
            {
                force   += forceadd;
                enpitch += 0.02f;
            }
            else if (Intellect.IsControlKeyPressed(GameControlKeys.Backward))
            {
                dec      = true;
                force   -= forceadd;
                enpitch -= 0.02f;
            }
            else
            {
                dec      = false;
                enpitch -= 0.01f;
                if (force > 50)
                {
                    force -= forceadd;
                }
                if (force < 50)
                {
                    force += forceadd;
                }
            }

            MathFunctions.Clamp(ref force, 0.1f, 100 + Type.MaxForce);
            MathFunctions.Clamp(ref enpitch, 0.8f, 1.3f);

            //update helli channel position and pitch
            if (rotorSoundChannel != null)
            {
                //update channel
                rotorSoundChannel.Pitch    = enpitch;
                rotorSoundChannel.Volume   = 1;
                rotorSoundChannel.Position = Position;
                //rotorSoundChannel.MinDistance = 10;
            }

            //end of engine force + sound pitch control

            //Forces
            ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

            //start helli Pitch
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Up) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Down))
            {
                float AUp   = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Up) / 2;
                float ADown = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Down) / 2;
                Hpitch += (AUp - ADown);
                MathFunctions.Clamp(ref Hpitch, -10, 10);

                HelliBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                   HelliBody.Rotation * new Vec3(0, 0, Hpitch / 2) * HelliBody.Mass, new Vec3(-2, 0, 0));
            }
            else
            {
                Hpitch = 0;
            }
            //end of helli pitch

            //start helli Z turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Right) || Intellect.IsControlKeyPressed(GameControlKeys.Left))
            {
                float right = Intellect.GetControlKeyStrength(GameControlKeys.Right) / 2;
                float left  = Intellect.GetControlKeyStrength(GameControlKeys.Left) / 2;
                TrunZ += (left - right);
                MathFunctions.Clamp(ref TrunZ, -10, 10);

                HelliBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                   HelliBody.Rotation * new Vec3(0, 0, TrunZ) * HelliBody.Mass, Vec3.Zero);
            }
            else
            {
                TrunZ = 0;
            }

            //end of helli Z turn

            //start helli X turn
            if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Right) || Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Left))
            {
                float rightX = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Right) / 2;
                float leftX  = Intellect.GetControlKeyStrength(GameControlKeys.Arrow_Left) / 2;
                TrunX += (rightX - leftX);
                MathFunctions.Clamp(ref TrunX, -10, 10);

                HelliBody.AddForce(ForceType.GlobalTorque, TickDelta,
                                   HelliBody.Rotation * new Vec3(TrunX / 5, 0, 0) * HelliBody.Mass, Vec3.Zero);
            }
            else
            {
                TrunX = 0;
            }
            //end of helli X turn

            //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

            //start of adding force

            MathFunctions.Clamp(ref force, 0.1f, 100);

            //anti gravity when helli is not decending
            if (dec == false)
            {
                HelliBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                   new Vec3(0, 0, 2) * HelliBody.Mass, Vec3.Zero);
            }

            //if Max Alt is not reached add helli motor force
            if (GetRealAlt() < Type.MaxAlt)
            {
                HelliBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                   HelliBody.Rotation * 2 * new Vec3(0, 0, force / 7) * HelliBody.Mass, Vec3.Zero);
            }

            //dampings
            HelliBody.AngularDamping = 1.5f;
            HelliBody.LinearDamping  = 0.4f;

            //another anti gravity force
            if (HelliBody.LinearVelocity.Z < 0)
            {
                HelliBody.AddForce(ForceType.GlobalAtLocalPos, TickDelta,
                                   HelliBody.Rotation * new Vec3(0, 0, -HelliBody.LinearVelocity.Z) * HelliBody.Mass, Vec3.Zero);
            }
        }
Exemplo n.º 11
0
        Vec2 GetMovementVectorByControlKeys()
        {
            //use specified force move vector
            if (forceMoveVectorTimer != 0)
            {
                return(forceMoveVector);
            }

            //TPS arcade specific
            //vector is depending on camera orientation
            if (GameMap.Instance != null && GameMap.Instance.GameType == GameMap.GameTypes.TPSArcade &&
                PlayerIntellect.Instance == Intellect)
            {
                //this is not adapted for networking.
                //using RendererWorld.Instance.DefaultCamera is bad.

                Vec2 localVector = Vec2.Zero;
                localVector.X += Intellect.GetControlKeyStrength(GameControlKeys.Forward);
                localVector.X -= Intellect.GetControlKeyStrength(GameControlKeys.Backward);
                localVector.Y += Intellect.GetControlKeyStrength(GameControlKeys.Left);
                localVector.Y -= Intellect.GetControlKeyStrength(GameControlKeys.Right);

                if (localVector != Vec2.Zero)
                {
                    Vec2   diff     = Position.ToVec2() - RendererWorld.Instance.DefaultCamera.Position.ToVec2();
                    Degree angle    = new Radian(MathFunctions.ATan(diff.Y, diff.X));
                    Degree vecAngle = new Radian(MathFunctions.ATan(-localVector.Y, localVector.X));
                    Quat   rot      = new Angles(0, 0, vecAngle - angle).ToQuat();
                    Vec2   vector   = (rot * new Vec3(1, 0, 0)).ToVec2();
                    return(vector);
                }
                else
                {
                    return(Vec2.Zero);
                }
            }

            //PlatformerDemo specific
            if (GameMap.Instance != null && GameMap.Instance.GameType == GameMap.GameTypes.PlatformerDemo &&
                PlayerIntellect.Instance == Intellect)
            {
                Vec2 vector = Vec2.Zero;
                vector.X -= Intellect.GetControlKeyStrength(GameControlKeys.Left);
                vector.X += Intellect.GetControlKeyStrength(GameControlKeys.Right);
                return(vector);
            }

            //default behaviour
            {
                Vec2 localVector = Vec2.Zero;
                localVector.X += Intellect.GetControlKeyStrength(GameControlKeys.Forward);
                localVector.X -= Intellect.GetControlKeyStrength(GameControlKeys.Backward);
                localVector.Y += Intellect.GetControlKeyStrength(GameControlKeys.Left);
                localVector.Y -= Intellect.GetControlKeyStrength(GameControlKeys.Right);

                Vec2 vector = (new Vec3(localVector.X, localVector.Y, 0) * Rotation).ToVec2();
                if (vector != Vec2.Zero)
                {
                    float length = vector.Length();
                    if (length > 1)
                    {
                        vector /= length;
                    }
                }
                return(vector);
            }
        }
Exemplo n.º 12
0
        private void TickIntellect(Intellect intellect)
        {
            Vec2 forceVec = Vec2.Zero;

            if (forceMoveVectorTimer != 0)
            {
                forceVec = forceMoveVector;
            }
            else
            {
                Vec2 vec = Vec2.Zero;

                vec.X += intellect.GetControlKeyStrength(GameControlKeys.Forward);
                vec.X -= intellect.GetControlKeyStrength(GameControlKeys.Backward);
                vec.Y += intellect.GetControlKeyStrength(GameControlKeys.Left);
                vec.Y -= intellect.GetControlKeyStrength(GameControlKeys.Right);

                forceVec = (new Vec3(vec.X, vec.Y, 0) * Rotation).ToVec2();

                if (forceVec != Vec2.Zero)
                {
                    float length = forceVec.Length();
                    if (length > 1)
                    {
                        forceVec /= length;
                    }
                }
            }

            if (forceVec != Vec2.Zero)
            {
                float velocityCoefficient = 1;
                if (FastMoveInfluence != null)
                {
                    velocityCoefficient = FastMoveInfluence.Type.Coefficient;
                }

                float maxVelocity;
                float force;

                if (IsOnGround())
                {
                    maxVelocity = Type.WalkMaxVelocity;
                    force       = Type.WalkForce;
                }
                else
                {
                    maxVelocity = Type.FlyControlMaxVelocity;
                    force       = Type.FlyControlForce;
                }

                maxVelocity *= forceVec.Length();

                //velocityCoefficient
                maxVelocity *= velocityCoefficient;
                force       *= velocityCoefficient;

                if (mainBody.LinearVelocity.Length() < maxVelocity)
                {
                    mainBody.AddForce(ForceType.Global, 0, new Vec3(forceVec.X, forceVec.Y, 0) *
                                      force * TickDelta, Vec3.Zero);
                }
            }

            if (!Z)
            {
                return;
            }

            CapsuleShape maincap = mainBody.Shapes[1] as CapsuleShape;
            CapsuleShape downcap = mainBody.Shapes[2] as CapsuleShape;

            if (Intellect.IsControlKeyPressed(GameControlKeys.Croutch))
            {
                croutch     = true;
                Type.Height = Type.HeightMax / 3;
            }
            else if (Type.FPSCameraOffset != new Vec3(0, 0, -0.5f))
            {
                Type.Height = Type.HeightMax;
                croutch     = false;
            }
            float length2 = Type.Height - Type.Radius * 2 - Type.WalkUpHeight;

            if (croutch)
            {
                Type.FPSCameraOffset = Vec3.Zero;
                Type.WalkMaxVelocity = 3;
                Type.WalkForce       = 3000f;
                maincap.Position     = new Vec3(0, 0, -0.5f);
                maincap.Length       = length2 / 2;

                downcap.Position = new Vec3(0, 0, -0.5f);
                downcap.Length   = 1.2f;
            }
            else if (!croutch && Type.FPSCameraOffset != new Vec3(0, 0, -0.5f))
            {
                Type.WalkMaxVelocity = 7;
                Type.WalkForce       = 6000f;
                Type.FPSCameraOffset = new Vec3(0, 0, 0.5f);
                maincap.Length       = length2;
                maincap.Position     = Vec3.Zero;

                downcap.Length   = Type.Height - Type.BottomRadius * 2;
                downcap.Position = new Vec3(0, 0,
                                            (Type.Height - Type.WalkUpHeight) / 2 - Type.Height / 2);
            }
            TickRun();
            lastTickForceVector = forceVec;

            //Update Run energy
            if (EntitySystemWorld.Instance.IsServer() &&
                Type.NetworkType == EntityNetworkTypes.Synchronized)
            {
                Server_SendUpdateRunEnergyToClients(
                    EntitySystemWorld.Instance.RemoteEntityWorlds);
            }
        }