Exemplo n.º 1
0
        public void MakeDualityTarget()
        {
            if (DualityApp.ExecContext == DualityApp.ExecutionContext.Terminated)
            {
                return;
            }

            activeCamView = this;

            DualityApp.WindowSize      = this.activeState.RenderedImageSize;
            DualityApp.Mouse.Source    = this;
            DualityApp.Keyboard.Source = this;

            // If we have a CamView-local listener that is active, use that one.
            // Note: The GameViewCamViewState deactivates its own camera, since it uses the
            // regular Scene rendering setup, rather than providing its own.
            SoundListener localListener = this.CameraObj.GetComponent <SoundListener>();

            if (localListener != null && localListener.Active)
            {
                localListener.MakeCurrent();
            }
            // If we don't have a local listener, use the regular one from the current scene
            else
            {
                SoundListener sceneListener = Scene.Current.FindComponent <SoundListener>();
                if (sceneListener != null)
                {
                    sceneListener.MakeCurrent();
                }
            }
        }
Exemplo n.º 2
0
        /// <summary>
        /// Ordinary constructor.
        /// </summary>
        /// <param name="game">The main CanyonShooter game object</param>
        public Ghost(ICanyonShooterGame game)
            : base(game, "PlayerElcode")
        {
            EnabledChanged += (Player2_EnabledChanged);

            // Set player profile values
            SetModel(game.GameStates.Profil.CurrentProfil.Model);
            BankingFactor  = game.GameStates.Profil.CurrentProfil.Banking;
            DriftFactor    = game.GameStates.Profil.CurrentProfil.Drift;
            TranslationGap = game.GameStates.Profil.CurrentProfil.Translation;
            RollFactor     = game.GameStates.Profil.CurrentProfil.Rolling;
            MaxDecay       = game.GameStates.Profil.CurrentProfil.Brake;
            AutoLevel      = game.GameStates.Profil.CurrentProfil.AutoLevel;
            Health         = game.GameStates.Profil.CurrentProfil.Health;
            MinSpeed       = game.GameStates.Profil.CurrentProfil.Speed;
            Shield         = game.GameStates.Profil.CurrentProfil.Shield;
            SpeedGap       = game.GameStates.Profil.CurrentProfil.Acceleration;

            // Initialize player environment
            LocalPosition       = new Vector3(0, 0, 0);
            ConnectedToXpa      = true;
            ContactGroup        = ContactGroup.None;
            InfluencedByGravity = false;
            this.game           = game;
            //SetCamera(game);

            // Set sound listener for 3D sound
            listener = new SoundListener(game);
            game.Sounds.SoundListener = listener;
        }
Exemplo n.º 3
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 public void StartListen()
 {
     if (soundListener == null)
     {
         soundListener = new SoundListener(Program.SoundCaptureDevice);
         soundListener.NotifyPointsInSecond = NotifyPerSecond;
         soundListener.Listen += new SoundListener.ListenHandler(soundListener_Listen);
         soundListener.StartListen();
     }
 }
Exemplo n.º 4
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        public void MetronomeTest()
        {
            MetronomeMachine m = new MetronomeMachine(10, 50);//se crea instancia,(contador, duracion).

            TextListener t = new TextListener();// se crea una instancia, esta escucha a metronememachine e imprime en pantalla la duracion y frecuencia.
            t.Subscribe(m);//El este metodo recibe un MetronomeMachine y a éste, al evento que se encuentra en el objeto, le asigna una variable, un metodo que hace imprime en pantalla la duracion y frecuencia.

            SoundListener l = new SoundListener();//se crea una instancia.
            l.Subscribe(m);//este metodo le asigna recibe un metronomemachine, busca su evento y le suscribe una variable que a su vez es un metodo que emite un beep cada vez que se displara el evento en la clase metronomemachine.

            //m.Tick -= l.EmitSound; remover handler
            m.Start();//dispara el evento.
        }
Exemplo n.º 5
0
        /// <summary>
        /// Setup the test environment.
        /// </summary>
        /// <param name="game"></param>
        public void SetUp(ICanyonShooterGame game)
        {
            // Create sound system
            sounds = new SoundSystem(game);

            // Create the listener
            listener = new SoundListener(game);

            // Set global volumes
            sounds.EffectVolume = 0.8f;

            // The listener "player"
            sounds.SoundListener = listener;
        }
Exemplo n.º 6
0
 public void StopListen()
 {
     if (soundListener != null)
     {
         try
         {
             soundListener.StopListen();
             soundListener.Listen -= new SoundListener.ListenHandler(soundListener_Listen);
             soundListener = null;
         }
         catch (Exception ex)
         {
             MessageBox.Show("Error in stopping device,\nError Message: " + ex.Message, "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
         }
     }
 }
Exemplo n.º 7
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    void Start()
    {
        traversalCenter = transform.position;
        traversalReturn = transform.position;
        anim            = GetComponent <Animator>();
        MovementSight ms = GetComponentInChildren <MovementSight>();

        if (ms)
        {
            ms.onMovementSightTrigger += OnMovementSightEnter;
        }
        SoundListener sl = GetComponent <SoundListener>();

        if (sl)
        {
            sl.onListenSound += OnListenSound;
        }
    }
Exemplo n.º 8
0
        private void UpdateListener()
        {
            if (this.soundListener != null && (this.soundListener.Disposed || !this.soundListener.Active))
            {
                this.soundListener = null;
            }

            // If no listener is defined, search one
            if (this.soundListener == null)
            {
                this.soundListener = Scene.Current.FindComponent <SoundListener>();
            }

            DualityApp.AudioBackend.UpdateListener(
                this.ListenerPos * AudioUnit.LengthToPhysical,
                this.ListenerVel * AudioUnit.VelocityToPhysical,
                this.ListenerAngle * AudioUnit.AngleToPhysical,
                this.mute);
        }
Exemplo n.º 9
0
        internal static void UpdateDependencies()
        {
#if !WINDOWS_PHONE && !MONOGAME && !SILVERLIGHT
            SoundListener.UpdateDependencies(TimeManager.CurrentTime);
            SoundListener.UpdateAudio();

            for (int i = 0; i < PositionedSounds.Count; i++)
            {
                PositionedSounds[i].UpdateDependencies(TimeManager.CurrentTime);
                PositionedSounds[i].UpdateAudio();
            }

            if (mXnaAudioEngine != null)
            {
                mXnaAudioEngine.Update();
            }
#endif

            mSoundsPlayedThisFrame.Clear();
        }
Exemplo n.º 10
0
        protected override void Initialize()
        {
            base.Initialize();
            cam     = RenderManager.ActiveCamera2D.Transform;
            emitter = new SoundEmitter()
            {
                DistanceScale = 5
            };
            listener = new SoundListener();

            children = new List <Animation2D>();

            foreach (Entity ent in Owner.ChildEntities)
            {
                Animation2D a = ent.FindComponent <Animation2D>();
                if (a != null)
                {
                    children.Add(a);
                }
            }
        }
Exemplo n.º 11
0
    // Update is called once per frame
    void Update()
    {
        if (!move.isPaused())
        {
            foreach (GameObject target in Targets)
            {
                SoundListener lis = target.GetComponentInChildren <SoundListener>();

                if (lis)
                {
                    Vector3 pos = target.transform.position;
                    pos.z = 0.0f;

                    Astar.ComputePath(pos, circle.radius, true);
                    float dis = Astar.GetPathDistance();

                    if (dis <= circle.radius)
                    {
                        lis.UpdateWaypoints(Astar.GetInvertedWaypoints());
                    }
                }
            }
        }
    }
Exemplo n.º 12
0
        public Player(ICanyonShooterGame game, int PlayerID)
            : base(game, "player" + PlayerID)
        {
            // TODO: Construct any child components here
            this.game = game;
            playerID  = PlayerID;

            camera = new PerspectiveCamera(game);

            // Sound Listener by M.R. Set SoundSystem listener.
            listener = new SoundListener(game);
            game.Sounds.SoundListener = listener;
            // -----------------------------------------------
            SetModel(game.GameStates.Profil.CurrentProfil.Model);
            //SetModel("F35eger");
            //SetModel("Starfighter");
            //SetModel("Fighter");
            //SetModel("Drone");
            //SetModel("Car");
            //SetModel("G35hopper");
            LocalPosition = /*this.LocalPosition + */ new Vector3(0, 0, 0);
            //LocalScale = new Vector3(0.15f, 0.4f, 0.6f);
            //LocalScale = new Vector3(0.5f, 0.5f, 0.5f);
            //Scale(new Vector3(0.5f, 0.5f, 0.5f));
            ConnectedToXpa      = true;
            ContactGroup        = ContactGroup.Player;
            InfluencedByGravity = false;
            //Velocity = new Vector3(0, 0, -20.0f);

            //this.Solid.AddShape(t11);
            //this.Solid.AddShape(t12);
            //this.Solid.UserData = this;

            /*
             * SphereShapeData t11 = new SphereShapeData();
             * t11.Radius = 20.0f;
             * t11.Material.Hardness = 0.2f;
             * t11.Material.Bounciness = 0.6f;
             * t11.Material.Friction = 1.0f;
             * t11.Material.Density = 0.4f;
             * t11.Offset.Translation = new Vector3(5, 4, 0);
             * SphereShapeData t12 = new SphereShapeData();
             * t12.Radius = 20.0f;
             * t12.Material.Hardness = 0.2f;
             * t12.Material.Bounciness = 0.6f;
             * t12.Material.Friction = 1.0f;
             * t12.Material.Density = 0.4f;
             * t12.Offset.Translation = new Vector3(-5, 0, 0);
             *
             * obj = new GameObject[2];
             *
             * obj[0] = new GameObject(this, "0");
             * obj[0].SetModel("Drone");
             * obj[0].LocalPosition = obj[0].LocalPosition + new Vector3(0, 0, -50);
             * obj[0].ConnectedToXpa = true;
             * obj[0].Solid.AddShape(t11);
             * obj[0].Solid.AddShape(t12);
             * obj[0].Solid.UserData = obj[0];
             * obj[1] = new GameObject(this, "1");
             * Components.Add(obj[1]);
             * obj[1].SetModel("Roket");
             * obj[1].LocalPosition = obj[1].LocalPosition + new Vector3(-10, 0, 0);
             * //obj[1].Solid.UserData = obj[1];
             * obj[1].Parent = obj[0];
             *
             * Components.Add(obj[0]);
             *
             * Solid platte = physics.CreateSolid();
             * PlaneShapeData planeData = new PlaneShapeData(new Plane(new Vector3(0, 1, 0), -30));
             * planeData.Material.Hardness = 1f;
             * planeData.Material.Bounciness = 0.9f;
             * planeData.Material.Friction = 1.0f;
             * planeData.Material.Density = 0.8f;
             * platte.Tag = "Bodenplatte";
             * platte.AddShape(planeData);
             * platte.Static = true;
             */
        }
Exemplo n.º 13
0
        void ICmpUpdatable.OnUpdate()
        {
            Transform     transform = this.GameObj.Transform;
            RigidBody     body      = this.GameObj.GetComponent <RigidBody>();
            ShipBlueprint blueprint = this.blueprint.Res;

            // Heal when damaged
            if (this.hitpoints < 1.0f)
            {
                this.hitpoints = MathF.Clamp(this.hitpoints + blueprint.HealRate * Time.SPFMult * Time.TimeMult / blueprint.MaxHitpoints, 0.0f, 1.0f);
            }

            // Apply force according to the desired thrust
            Vector2 actualVelocity      = body.LinearVelocity;
            Vector2 targetVelocity      = this.targetThrust * blueprint.MaxSpeed;
            Vector2 velocityDiff        = (targetVelocity - actualVelocity);
            float   sameDirectionFactor = Vector2.Dot(
                velocityDiff / MathF.Max(0.001f, velocityDiff.Length),
                this.targetThrust / MathF.Max(0.001f, this.targetThrust.Length));
            Vector2 thrusterActivity = this.targetThrust.Length * MathF.Max(sameDirectionFactor, 0.0f) * velocityDiff / MathF.Max(velocityDiff.Length, 1.0f);

            if (thrusterActivity.Length > 0.00001f)             // Don't wake physics without actually doing work
            {
                body.ApplyWorldForce(thrusterActivity * blueprint.ThrusterPower);
            }

            // Turn to the desired fire angle
            if (this.targetAngleRatio > 0.0f)
            {
                float shortestTurnDirection = MathF.TurnDir(transform.Angle, this.targetAngle);
                float shortestTurnLength    = MathF.CircularDist(transform.Angle, this.targetAngle);
                float turnDirection;
                float turnLength;
                if (MathF.Abs(body.AngularVelocity) > blueprint.MaxTurnSpeed * 0.25f)
                {
                    turnDirection = MathF.Sign(body.AngularVelocity);
                    turnLength    = (turnDirection == shortestTurnDirection) ? shortestTurnLength : (MathF.RadAngle360 - shortestTurnLength);
                }
                else
                {
                    turnDirection = shortestTurnDirection;
                    turnLength    = shortestTurnLength;
                }
                float turnSpeedRatio        = MathF.Min(turnLength * 0.25f, MathF.RadAngle30) / MathF.RadAngle30;
                float turnVelocity          = turnSpeedRatio * turnDirection * blueprint.MaxTurnSpeed * this.targetAngleRatio;
                float angularVelocityChange = (turnVelocity - body.AngularVelocity) * blueprint.TurnPower;
                if (MathF.Abs(angularVelocityChange) > 0.0000001f)                 // Don't wake physics without actually doing work
                {
                    body.AngularVelocity += angularVelocityChange * Time.TimeMult;
                }
            }

            // Weapon cooldown
            this.weaponTimer = MathF.Max(0.0f, this.weaponTimer - Time.MsPFMult * Time.TimeMult);

            // Play the owners special flight sound, when available
            if (this.owner != null && this.owner.FlightLoop != null)
            {
                SoundListener listener    = Scene.Current.FindComponent <SoundListener>();
                Vector3       listenerPos = listener.GameObj.Transform.Pos;

                // Determine the target panning manually, because we don't want a true 3D sound here (doppler, falloff, ...)
                float targetPanning;
                if (listenerPos.Xy == transform.Pos.Xy || Player.AlivePlayers.Count() <= 1)
                {
                    targetPanning = 0.0f;
                }
                else
                {
                    targetPanning = -Vector2.Dot(Vector2.UnitX, (listenerPos - transform.Pos).Xy.Normalized);
                }

                // Determine the target volume
                float targetVolume = MathF.Clamp(this.targetThrust.Length, 0.0f, 1.0f);

                // Clean up disposed flight loop
                if (this.flightLoop != null && this.flightLoop.Disposed)
                {
                    this.flightLoop = null;
                }

                // Start the flight loop when requested
                if (targetVolume > 0.0f && this.flightLoop == null)
                {
                    if ((int)Time.MainTimer.TotalMilliseconds % 2976 <= (int)Time.MsPFMult)
                    {
                        this.flightLoop        = DualityApp.Sound.PlaySound(this.owner.FlightLoop);
                        this.flightLoop.Looped = true;
                    }
                }

                // Configure existing flight loop
                if (this.flightLoop != null)
                {
                    this.flightLoop.Volume  += (targetVolume - this.flightLoop.Volume) * 0.05f * Time.TimeMult;
                    this.flightLoop.Panning += (targetPanning - this.flightLoop.Panning) * 0.05f * Time.TimeMult;
                }
            }

            // Display the damage effect when damaged
            if (this.hitpoints < 0.85f && blueprint.DamageEffect != null)
            {
                // Create a new damage effect instance, if not present yet
                if (this.damageEffect == null)
                {
                    GameObject damageObj = blueprint.DamageEffect.Res.Instantiate(transform.Pos);
                    damageObj.Parent = this.GameObj;

                    this.damageEffect = damageObj.GetComponent <ParticleEffect>();
                    if (this.damageEffect == null)
                    {
                        throw new NullReferenceException();
                    }
                }

                // Configure the damage effect
                foreach (ParticleEmitter emitter in this.damageEffect.Emitters)
                {
                    if (emitter == null)
                    {
                        continue;
                    }
                    emitter.BurstDelay = new Range(50.0f + this.hitpoints * 50.0f, 100.0f + this.hitpoints * 300.0f);
                    if (this.owner != null)
                    {
                        ColorHsva targetColor = this.owner.Color.ToHsva();
                        emitter.MinColor = new ColorHsva(targetColor.H, targetColor.S, emitter.MinColor.V, emitter.MinColor.A);
                        emitter.MaxColor = new ColorHsva(targetColor.H, targetColor.S, emitter.MaxColor.V, emitter.MaxColor.A);
                    }
                }
            }
            // Get rid of existing damage effects, if no longer needed
            else if (this.damageEffect != null)
            {
                // Stop emitting and dispose when empty
                foreach (ParticleEmitter emitter in this.damageEffect.Emitters)
                {
                    if (emitter == null)
                    {
                        continue;
                    }
                    emitter.BurstDelay = float.MaxValue;
                }
                this.damageEffect.DisposeWhenEmpty = true;
                this.damageEffect = null;
            }
        }
Exemplo n.º 14
0
 private void buttonStop_Click(object sender, EventArgs e)
 {
     if (soundListener != null)
     {
         soundListener.StopListen();
         soundListener.Listen -= new SoundListener.ListenHandler(SoundListener_Listen);
         soundListener = null;
     }
     endTime = CurrentTime;
     firstTimeListen = true;
     windowsMediaPlayer.Ctlcontrols.stop();
     timerRefresh.Stop();
     TranslateBuffer();
     buttonOK.Enabled = true;
     buttonCancel.Enabled = true;
     buttonPlay.Enabled = true;
     buttonListen.Enabled = false;
     buttonStop.Enabled = false;
     numericUpDownSpeed.Enabled = true;
 }
Exemplo n.º 15
0
 private void buttonPlay_Click(object sender, EventArgs e)
 {
     if (soundListener == null)
     {
         soundListener = new SoundListener(Program.SoundCaptureDevice);
         soundListener.NotifyPointsInSecond = notifyPerSecond;
         soundListener.Listen += new SoundListener.ListenHandler(SoundListener_Listen);
     }
     ucNoteGraph.Clear();
     windowsMediaPlayer.Ctlcontrols.currentPosition = (double)trackBarTimeline.Value / trackBarTimeline.Maximum * windowsMediaPlayer.Ctlcontrols.currentItem.duration;
     timerRefresh.Start();
     windowsMediaPlayer.Ctlcontrols.play();
     buttonOK.Enabled = false;
     buttonCancel.Enabled = false;
     buttonPlay.Enabled = false;
     buttonListen.Enabled = true;
     buttonStop.Enabled = true;
     numericUpDownSpeed.Enabled = false;
 }
Exemplo n.º 16
0
        /// <summary>
        /// The program Loop: CTRL+C to stop it properly
        /// </summary>
        /// <param name="characteristic"></param>
        static void Loop(GattCharacteristic characteristic)
        {
            SoundListener soundListener = new SoundListener();

            Console.CancelKeyPress += delegate(object sender, ConsoleCancelEventArgs e) {
                e.Cancel    = true;
                keepRunning = false;
            };
            LogHelper.Ok("Program running. Press CTRL+C to stop");

            #region variables (prevents reallocation)

            // Rectangle in the middle of the screen
            Rectangle rect      = new Rectangle(1920 / 4, 1080 / 4, 1920 / 4 * 2, 1080 / 4 * 2);
            String    colorCode = "";
            Color     color;
            int       soundLevel;
            String    brightness;
            String    textToWrite;

            #endregion

            #region configuration

            bool   sensitiveToBass  = Configuration.audioSensibility == Configuration.AudioSensibility.BASS_LEVEL;
            bool   dynamicSmoothing = Configuration.smoothingMode == Configuration.SmoothingMode.DYNAMIC;
            bool   valueSmoothing   = Configuration.smoothingMode == Configuration.SmoothingMode.VALUE;
            double smoothness       = Configuration.smoothingValue;

            #endregion

            int current = -1; // Smooth brightness variation
            int cpt     = 0;  // Used to know when to read the screen's pixels
            soundListener.ListenForBass(sensitiveToBass);

            while (keepRunning)
            {
                if (Configuration.audioSensibility != Configuration.AudioSensibility.NONE)
                {
                    soundLevel = (int)((sensitiveToBass ? soundListener.GetBassLevel() : soundListener.GetSoundLevel()) * 100f); // Between 0.0f and 100.0f

                    if (current == -1)
                    {
                        current = soundLevel;
                    }

                    if (dynamicSmoothing)
                    {
                        current = (current + soundLevel) / 2;
                    }
                    else if (current < soundLevel && valueSmoothing && smoothness > 0)
                    {
                        current = Math.Min((int)(current + 100 / smoothness), soundLevel);
                    }
                    else if (smoothness > 0)
                    {
                        current = Math.Max((int)(current - 100 / smoothness), soundLevel);
                    }
                    else
                    {
                        current = soundLevel;
                    }

                    // Format: 7e 00 01 brightness 00 00 00 00 ef
                    // brightness: 0x00-0x64 (0-100)
                    // So we need to convert the soundLevel to hex so that 100.0f is 0x64 and 0.0f is 0x00
                    brightness  = (current).ToString("X");
                    textToWrite = "7e0001" + brightness + "00000000ef";
                    _           = BleUtility.WriteHex(textToWrite, characteristic); // we don't want it to be blocking
                }

                if (Configuration.colorSensibility != Configuration.ColorSensibility.NONE)
                {
                    // We don't want to analyze pixels as fast as we check for the sound level
                    cpt++;
                    if (cpt == 10)
                    {
                        new Thread(() =>
                        {
                            color = ScreenUtils.CalculateAverageScreenColorAt(rect);

                            if (color.GetBrightness() >= 0.85f)
                            {
                                // white
                                colorCode = "86";
                            }
                            else if (color.GetHue() < 25 || color.GetHue() >= 330)
                            {
                                // red
                                colorCode = "80";
                            }
                            else if (color.GetHue() >= 25 && color.GetHue() < 65)
                            {
                                // yellow
                                colorCode = "84";
                            }
                            else if (color.GetHue() >= 65 && color.GetHue() < 180)
                            {
                                // green
                                colorCode = "82";
                            }
                            else if (color.GetHue() >= 180 && color.GetHue() < 200)
                            {
                                // cyan
                                colorCode = "83";
                            }
                            else if (color.GetHue() >= 200 && color.GetHue() < 250)
                            {
                                // blue
                                colorCode = "81";
                            }
                            else if (color.GetHue() >= 250 && color.GetHue() < 330)
                            {
                                // magenta
                                colorCode = "85";
                            }

                            _ = BleUtility.WriteHex("7e0003" + colorCode + "03000000ef", characteristic);
                        }).Start();

                        cpt = 0;
                    }
                }

                Thread.Sleep(50);
            }

            soundListener.Dispose();
        }
Exemplo n.º 17
0
 public void RemoveListener(SoundListener listener)
 {
     listeners.Remove(listener);
 }
Exemplo n.º 18
0
 public void AddListener(SoundListener listener)
 {
     listeners.Add(listener);
 }