Ejemplo n.º 1
0
        private void TickSound()
        {
            bool lastMotorOn = AKJetOn;

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

            //sound on, off
            if (AKJetOn != lastMotorOn)
            {
                if (AKJetOn)
                {
                    Sound sound = SoundWorld.Instance.SoundCreate(Type.SoundOn, SoundMode.Mode3D);
                    if (sound != null)
                    {
                        soundOnChannel = SoundWorld.Instance.SoundPlay(sound, EngineApp.Instance.DefaultSoundChannelGroup, .7f, true);
                        if (soundOnChannel != null)
                        {
                            soundOnChannel.Position = Position;
                            soundOnChannel.Pause    = false;
                        }
                    }
                    //SoundPlay3D(Type.SoundOn, .7f, true);
                }
                else
                {
                    EngineOff();
                    SoundPlay3D(Type.SoundOff, 0.7f, true);
                }
            }

            string needSoundName = null;

            if (AKJetOn)
            {
                needSoundName = Type.SoundIdle;
            }
            if (needSoundName != currentRotorSoundName)
            {
                currentRotorSoundName = needSoundName;

                if (!string.IsNullOrEmpty(needSoundName))
                {
                    Sound sound = SoundWorld.Instance.SoundCreate(needSoundName,
                                                                  SoundMode.Mode3D | SoundMode.Loop);

                    if (sound != null)
                    {
                        rotorSoundChannel = SoundWorld.Instance.SoundPlay(
                            sound, EngineApp.Instance.DefaultSoundChannelGroup, 1, true);
                        rotorSoundChannel.Position = Position;
                        rotorSoundChannel.Pause    = false;
                    }
                }
            }
        }
Ejemplo n.º 2
0
        private void TickMotorSound()
        {
            bool lastMotorOn = motorOn;

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

            //sound on, off
            if (motorOn != lastMotorOn)
            {
                if (!firstTick && Health != 0)
                {
                    if (motorOn)
                    {
                        Sound sound = SoundWorld.Instance.SoundCreate(Type.SoundOn, SoundMode.Mode3D);
                        if (sound != null)
                        {
                            soundOnChannel = SoundWorld.Instance.SoundPlay(sound, EngineApp.Instance.DefaultSoundChannelGroup, .7f, true);
                            if (soundOnChannel != null)
                            {
                                soundOnChannel.Position = Position;
                                soundOnChannel.Pause    = false;
                            }
                        }
                        //SoundPlay3D(Type.SoundOn, .7f, true);
                    }
                    else
                    {
                        SoundPlay3D(Type.SoundOff, .7f, true);
                    }
                }
            }

            string needSoundName = null;

            if (motorOn && currentGear != null)
            {
                needSoundName = currentGear.SoundMotor;
            }

            if (needSoundName != currentMotorSoundName)
            {
                //change motor sound

                if (motorSoundChannel != null)
                {
                    motorSoundChannel.Stop();
                    motorSoundChannel = null;
                }

                currentMotorSoundName = needSoundName;

                if (!string.IsNullOrEmpty(needSoundName))
                {
                    Sound sound = SoundWorld.Instance.SoundCreate(needSoundName,
                                                                  SoundMode.Mode3D | SoundMode.Loop);

                    if (sound != null)
                    {
                        motorSoundChannel = SoundWorld.Instance.SoundPlay(
                            sound, EngineApp.Instance.DefaultSoundChannelGroup, .3f, true);
                        motorSoundChannel.Position = Position;
                        motorSoundChannel.Pause    = false;
                    }
                }
            }

            //update motor channel position and pitch
            if (motorSoundChannel != null)
            {
                Range speedRangeAbs = currentGear.SpeedRange;
                if (speedRangeAbs.Minimum < 0 && speedRangeAbs.Maximum < 0)
                {
                    speedRangeAbs = new Range(-speedRangeAbs.Maximum, -speedRangeAbs.Minimum);
                }
                Range pitchRange = currentGear.SoundMotorPitchRange;

                float speedAbs = Math.Abs(GetTracksSpeed());

                float speedCoef = 0;
                if (speedRangeAbs.Size() != 0)
                {
                    speedCoef = (speedAbs - speedRangeAbs.Minimum) / speedRangeAbs.Size();
                }
                MathFunctions.Clamp(ref speedCoef, 0, 1);

                float carpitch;
                //update channel
                if (!OnGround)
                {
                    if (Intellect.IsControlKeyPressed(GameControlKeys.Arrow_Up))
                    {
                        carpitch = pitchRange.Minimum + pitchRange.Size();
                    }
                    else
                    {
                        carpitch = pitchRange.Minimum;
                    }
                }
                else
                {
                    carpitch = pitchRange.Minimum + speedCoef * pitchRange.Size();
                }
                motorSoundChannel.Pitch    = carpitch;
                motorSoundChannel.Position = Position;
            }
        }
Ejemplo n.º 3
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;
        }
Ejemplo n.º 4
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;
            }
        }
Ejemplo n.º 5
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);
            }
        }
Ejemplo n.º 6
0
        void TickMotorSound()
        {
            bool last_motor_on = motor_on;

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

            //sound on, off
            if (motor_on != last_motor_on)
            {
                if (!first_tick && Health != 0)
                {
                    if (motor_on)
                    {
                        SoundPlay3D(Type.CONF.SoundOn, .7f, true);
                    }
                    else
                    {
                        SoundPlay3D(Type.CONF.SoundOff, .7f, true);
                    }
                }
            }

            string need_sound_name = null;

            if (motor_on && current_gears != null)
            {
                need_sound_name = current_gears.SoundMotor;
            }

            if (need_sound_name != current_motor_sound_name)
            {
                //change motor sound
                if (motor_sound_channel != null)
                {
                    motor_sound_channel.Stop();
                    motor_sound_channel = null;
                }

                current_motor_sound_name = need_sound_name;

                if (!string.IsNullOrEmpty(need_sound_name))
                {
                    Sound sound = SoundWorld.Instance.SoundCreate(
                        RelativePathUtils.ConvertToFullPath(Path.GetDirectoryName(Type.FilePath), need_sound_name),
                        SoundMode.Mode3D | SoundMode.Loop);

                    if (sound != null)
                    {
                        motor_sound_channel = SoundWorld.Instance.SoundPlay(
                            sound, EngineApp.Instance.DefaultSoundChannelGroup, .3f, true);
                        motor_sound_channel.Position = Position;
                        switch (Type.SoundRolloffMode)
                        {
                        case DynamicType.SoundRolloffModes.Logarithmic:
                            motor_sound_channel.SetLogarithmicRolloff(Type.SoundMinDistance, Type.SoundMaxDistance,
                                                                      Type.SoundRolloffLogarithmicFactor);
                            break;

                        case DynamicType.SoundRolloffModes.Linear:
                            motor_sound_channel.SetLinearRolloff(Type.SoundMinDistance, Type.SoundMaxDistance);
                            break;
                        }
                        motor_sound_channel.Pause = false;
                    }
                }
            }

            //update motor channel position and pitch
            if (motor_sound_channel != null)
            {
                Range speed_range_abs = current_gears.SpeedRange;
                if (speed_range_abs.Minimum < 0 && speed_range_abs.Maximum < 0)
                {
                    speed_range_abs = new Range(-speed_range_abs.Maximum, -speed_range_abs.Minimum);
                }
                Range pitch_range = current_gears.SoundMotorPitchRange;

                float speed_abs = (PhysicsModel.Bodies[0].LinearVelocity.Length() * 3600.0f / 1000.0f);

                float speed_coef = 0;
                if (speed_range_abs.Size() != 0)
                {
                    speed_coef = (speed_abs - speed_range_abs.Minimum) / speed_range_abs.Size();
                }
                MathFunctions.Clamp(ref speed_coef, 0, 1);

                //update channel
                motor_sound_channel.Pitch    = pitch_range.Minimum + speed_coef * pitch_range.Size();
                motor_sound_channel.Position = Position;
            }
        }