void Update()
    {
        float val = ArduinoReciever.GetValue(measurementItem.id);

        if (val == 0f)
        {
            return;
        }
        measurementItem.infoLabel.text = val.ToString("0.0") + measurementItem.suffix;

        if (timer >= 8)
        {
            measurementItem.graphUI.AddPoint(Time.time - GeneralManager.manager.timeOffsetOfGraphClear, val); timer = 0;
        }
        timer++;


        Color colOut = measurementItem.gradient.Evaluate(Mathf.InverseLerp(measurementItem.minMaxValues.x, measurementItem.minMaxValues.y, val));

        measurementItem.colorIndicator.color = colOut;

        if (measurementItem.mat != null)
        {
            measurementItem.mat.color = colOut;
        }

        //measurementItem.graphUI.AddPoint(Time.time, val);
    }
Ejemplo n.º 2
0
 void Awake()
 {
     if (reciever != null)
     {
         Destroy(gameObject);
     }
     else
     {
         reciever = this;
     }
 }
    public void Update()
    {
        if (Input.GetKey(KeyCode.Q))
        {
            quitLength++;
        }
        else
        {
            quitLength = 0;
        }

        if (quitLength >= 100)
        {
            Application.Quit();
            Debug.LogError("QUIT");
            Debug.Break();
        }

        if (ArduinoReciever.GetValue("pos_alt") != 0f)
        {
            altGraph.AddPoint(Time.time - timeOffsetOfGraphClear, ArduinoReciever.GetValue("pos_alt"));
        }

        bool playback = ArduinoReciever.reciever.dataPlaybackMode;

        if (playback)
        {
            TimeSpan diff = new TimeSpan(0, 0, ArduinoReciever.reciever.dataPlaybackTime);
            timelineBarTakeoffToApogee.fillAmount = Mathf.InverseLerp(0f, 30f, ArduinoReciever.reciever.dataPlaybackTime);
            timelineBarApogeeToLanding.fillAmount = Mathf.InverseLerp(30, 224f, ArduinoReciever.reciever.dataPlaybackTime);
            UpdateTimelineTimeLabels(diff);
        }
        else if (!launchQueued)
        {
            launchTimerLabel.text    = "Not Set";
            bigLaunchTimerLabel.text = "Not Set";
            timelineBarTakeoffToApogee.fillAmount = 0f;
            timelineBarApogeeToLanding.fillAmount = 0f;

            timelineBarTakeoffToApogeeBig.fillAmount = 0f;
            timelineBarApogeeToLandingBig.fillAmount = 0f;
        }
        else
        {
            TimeSpan diff;
            diff = (playback ? FromUnixTime((long)ArduinoReciever.reciever.dataPlaybackTime) : DateTime.Now) - departureTime;
            timelineBarTakeoffToApogee.fillAmount = Mathf.InverseLerp(0f, 30f, (float)diff.TotalSeconds);
            timelineBarApogeeToLanding.fillAmount = Mathf.InverseLerp(30, 224f, (float)diff.TotalSeconds);

            timelineBarTakeoffToApogeeBig.fillAmount = Mathf.InverseLerp(0f, 30f, (float)diff.TotalSeconds);
            timelineBarApogeeToLandingBig.fillAmount = Mathf.InverseLerp(30, 224f, (float)diff.TotalSeconds);
            UpdateTimelineTimeLabels(diff);
        }
    }
    public void Awake()
    {
        if (manager)
        {
            Destroy(gameObject);
        }
        else
        {
            manager = this;
        }

        programStartedEpochTime = ArduinoReciever.GetCurrentEpochTime();
    }
    void UpdateLabels()
    {
        timeThing = 0f;

        dateOfNewData = System.DateTime.Now;

        latLabel.text         = ArduinoReciever.GetValue("pos_lat").ToString("0.##") + "°";
        longLabel.text        = ArduinoReciever.GetValue("pos_long").ToString("0.##") + "°";
        ambientTempLabel.text = ArduinoReciever.GetValue("temp_ambient").ToString("0.#") + "°F";


        accXLabel.text = ArduinoReciever.GetValue("acc_x").ToString("0.##");
        accYLabel.text = ArduinoReciever.GetValue("acc_y").ToString("0.##");
        accZLabel.text = ArduinoReciever.GetValue("acc_z").ToString("0.##");

        airbrakesLabel.text = ArduinoReciever.GetValue("airbrakes_angle").ToString();

        // lastUpdatedLabel.text = "Last updated " + dateOfNewData.ToLongTimeString() + " " + dateOfNewData.ToShortDateString();
        //altitudeLabel.text = "Alt: " + transform.position.y.ToString();
    }
    void UpdatePosition()
    {
        rocketObj.transform.rotation = new Quaternion(ArduinoReciever.GetValue("rot_x"), ArduinoReciever.GetValue("rot_y"), ArduinoReciever.GetValue("rot_z"), ArduinoReciever.GetValue("rot_w"));
        if (ArduinoReciever.GetValue("pos_alt") != 0f)
        {
            altitudeLabel.text = ArduinoReciever.GetValue("pos_alt").ToString() + " ft";
        }

        parachuteObj.SetActive(ArduinoReciever.GetValue("para") != 0f);

        float lat = ArduinoReciever.GetValue("pos_lat");
        float lon = ArduinoReciever.GetValue("pos_long");

        if (lat != 0f && lon != 0f)
        {
            GeneralManager.manager.SetLatLongMaps(lat, lon);
        }
        else
        {
            GeneralManager.manager.SetLatLongMaps(32.9405884f, -106.9204034f);
        }

        if (ArduinoReciever.GetValue("pos_alt") != 0f)
        {
            Vector3 rocketAlt       = new Vector3(0f, ArduinoReciever.GetValue("pos_alt"), 0f);
            float   rocketAltOffset = GeneralManager.manager.worldScaleMap.QueryElevationInUnityUnitsAt(new Mapbox.Utils.Vector2d(lat, lon)); // = GeneralManager.manager.worldScaleMap.GeoToWorldPosition(new Mapbox.Utils.Vector2d(lat, lon), true).y;
            rocketAlt.y       += rocketAltOffset;
            transform.position = rocketAlt;
        }



        //parachuteObj.SetActive(true);
        //parachuteObj.transform.rotation = Quaternion.Inverse(transform.rotation);
        //transform.Translate(0f, 0.5f, 0f);
        return;
    }