Beispiel #1
0
    void Update()
    {
        if (Time.timeScale == 0)
        {
            return;
        }

        flashTimer.Update(Time.deltaTime);

        float forceRatio = 0;

        if (useLeftHand)
        {
            gameCont.RegisterForce(_GlobalVariables.LEFT_INDEX, (int)_GlobalVariables.leftForce);
            forceRatio = Mathf.Min(_GlobalVariables.leftForce / (_GlobalVariables.maxGripStrength[0] * 1.05f), 1f);
        }
        else
        {
            gameCont.RegisterForce(_GlobalVariables.RIGHT_INDEX, (int)_GlobalVariables.rightForce);
            forceRatio = Mathf.Min(_GlobalVariables.rightForce / (_GlobalVariables.maxGripStrength[1] * 1.05f), 1f);
        }

        float   adjustedHeightRange = viewPort.y - spriteHeight;
        float   targetHeight        = forceRatio * adjustedHeightRange - adjustedHeightRange / 2;
        Vector2 target = new Vector2(xPosition, targetHeight);

        transform.position = Vector2.Lerp(transform.position, target, 0.1f);
    }
Beispiel #2
0
    /// <summary>
    /// Used by outside entities to apply a grip input switch
    /// </summary>
    //public void SwitchControls()
    //{
    //switchHands = !switchHands;
    //}

    /// <summary>
    /// Method <c>Update</c> called by engine every update cycle. Used to check for keypresses or
    /// other input and update player status variables accordingly.
    /// </summary>
    public void Update()
    {
        //skip update loop if paused
        if (Time.timeScale == 0)
        {
            return;
        }

        //read percentage of maximum force input that is currently applied from arduino sensor
        //We multiply denominator of proportion by 0.5 to ceil at half force for more precision requirements
        leftForceRatio  = Mathf.Min(_GlobalVariables.leftForce / (_GlobalVariables.maxGripStrength[0] * 0.5f), 1f);
        rightForceRatio = Mathf.Min(_GlobalVariables.rightForce / (_GlobalVariables.maxGripStrength[1] * 0.5f), 1f);

        if (!hasReachedFloor)
        {
            float appliedForce = _GlobalVariables.leftForce + _GlobalVariables.rightForce;

            if (appliedForce <= _GlobalVariables.maxGripStrength.Sum(m => m) * FLOOR_PERCENTAGE)
            {
                hasReachedFloor = true;
            }
            else
            {
                return;
            }
        }

        //if the switch trigger has been set then we just switch the values for left and right hand grips
        //if (switchHands)
        //{
        //float temp = leftForceRatio;
        //leftForceRatio = rightForceRatio;
        //rightForceRatio = temp;
        //}

        if (leftForceRatio >= ACCELERATION_PERCENTAGE && rightForceRatio >= ACCELERATION_PERCENTAGE)
        {
            float accelerationRatio = (leftForceRatio + rightForceRatio) / 2;
            velocity = accelerationRatio * velocityConversionRate;  //velocity is proportional to left force
            float xComponent = velocity * Mathf.Sin(angle * Mathf.Deg2Rad);
            float yComponent = velocity * Mathf.Cos(angle * Mathf.Deg2Rad);

            rb.velocity = new Vector2(-1 * xComponent, yComponent);
        }
        else
        {
            rb.velocity = new Vector2(0, 0);

            float angleAdditionLeft = leftForceRatio * angleConversionRate;
            angle += angleAdditionLeft;

            float angleAdditionRight = rightForceRatio * angleConversionRate;
            angle -= angleAdditionRight;

            angle %= 360;
            transform.eulerAngles = new Vector3(0, 0, angle);
        }


        //if (gameContScript.GetStage() < 2)
        //MazeSmartFeedbackProcessor.PlayerTurn(angleAddition);
        //else
        //MazeSmartFeedbackProcessor.SwitchedPlayerTurn(angleAddition);

        Vector3 old = transform.position;

        transform.position = new Vector3(old.x, old.y, -2);

        //update the loop timer
        flashTimer.Update(Time.deltaTime);
    }