Exemplo n.º 1
0
 void updateFlippedThisFrame()
 {
     if (flippedThisFrame)
     {
         flippedThisFrame = false;
     }
     if ((!helicopter.getMovingRight() && targetPosition.x > helicopter.transform.position.x) ||
         (helicopter.getMovingRight() && targetPosition.x < helicopter.transform.position.x))
     {
         flippedThisFrame = true;
     }
 }
Exemplo n.º 2
0
 void updateFlippedThisFrame()
 {
     if (flippedThisFrame)
     {
         flippedThisFrame = false;
     }
     if (((!helicopter.getMovingRight() && targetPosition.x > helicopter.transform.position.x) ||
          (helicopter.getMovingRight() && targetPosition.x < helicopter.transform.position.x)) &&
         (Mathf.Abs(helicopter.transform.position.x - targetPosition.x) > deadZoneForModelFlip))
     {
         flippedThisFrame = true;
     }
 }
Exemplo n.º 3
0
    /**
     * The default constructor for FlipState.
     * This makes the assumption that we can finish this FlipState with
     * the position of the helicopter after the flip as the root, and then
     * begin the movement pattern from there (starting sine wave at t=0).
     * Because of this, this shouldn't be called by IdleState, as it can
     * result in the helicopter repeatedly changing it's anchor height after
     * every flip, over time making the helicopter descend or ascend significantly
     */
    public FlipState(HeliScript helicopter, float deltaTime, HelicopterState toReturnTo)
    {
        //Initializing default, independent vals for behavioral variables
        this.helicopter  = helicopter;
        timeIntoFlip     = 0f;
        haveFlipped      = false;
        flippedThisFrame = false;
        rootPosition     = toReturnTo.getTargetPosition();
        rootPosition.y  -= helicopter.yOffsetMovement.indexedValue();         //since we adjust for bob, remove from root position
        this.toReturnTo  = toReturnTo;
        justSawPlayer    = false;
        initialSpeed     = (helicopter.getMovingRight()) ? helicopter.speed : -helicopter.speed;

        //initalize debug vars
        //currSpeedDebug = new List<float>();
        //targetPositionDebug = new List<float> ();

        //Shortcuts for accessing frequent variables without reaching back into helicopter each time
        lengthOfFlipInSeconds       = helicopter.flipTime;
        halfwayPoint                = lengthOfFlipInSeconds / 2;
        spotlightRotationBeforeFlip = helicopter.getSpotlight().transform.rotation;

        //Only need to calculate new spotlight rotation once, as it is simply the negated spotlight's rotation along the z axis
        targetSpotlightRotation = calculateNewSpotlightRotation();

        //Similarly, only need to calculate spotlight rotation speed once, as it's just the value that is scaled by time
        //to allow the spotlight to rotate smoothly and end exactly on the rotation point at helicopter.flipTime seconds
        spotlightRotationSpeed = calculateSpotlightRotationSpeed(targetSpotlightRotation.eulerAngles.z);
        //Must call this once during the constructor so that we have values initiated for the first frame of it's instantiation
        updateState(deltaTime);
    }
Exemplo n.º 4
0
    //Constructor run when creating IdleState
    public ReturnToStateState(HeliScript helicopter, float deltaTime, HelicopterState toReturnTo)
    {
        this.helicopter         = helicopter;
        nextState               = toReturnTo;
        targetPosition          = nextState.getTargetPosition();
        spotlightRotationSpeed  = nextState.getSpotlightRotationSpeed();
        targetSpotlightRotation = nextState.getTargetSpotlightRotation();
        currSpeed               = helicopter.speed;

        if ((helicopter.getMovingRight() && toReturnTo.getTargetPosition().x < helicopter.transform.position.x) ||
            (!helicopter.getMovingRight() && toReturnTo.getTargetPosition().x > helicopter.transform.position.x))
        {
            //We gotta turn around first
            toDoFirst = new FlipState(helicopter, deltaTime, this);
        }

        updateState(deltaTime);
    }
Exemplo n.º 5
0
    /**
     * This is called once per frame and updates the variables necessary for its state
     * It also checks to see if a new state is required, and if so, returns that new state
     */
    public HelicopterState updateState(float deltaTime)
    {
        if (justSawPlayer)
        {
            return(new PursuitState(helicopter, deltaTime, this));
        }
        //Logic for checking whether there should be a new state
        if ((helicopter.getMovingRight() && helicopter.transform.position.x - rootPosition.x > traversalDistance) ||
            (!helicopter.getMovingRight() && rootPosition.x - helicopter.transform.position.x > traversalDistance))
        {
            return(new FlipState(helicopter, deltaTime, this));
        }

        //Update the values for each important field
        //targetSpotlightRotation and spotlightRotationSpeed never change
        targetPosition = calculateTargetPosition(deltaTime);
        currSpeed      = calculateNewSpeed(deltaTime);

        //We haven't changed from idle due to any factors we can calculate within this state,
        //So we return the current state to be called again next frame
        return(this);
    }