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How do I get X and Y axis from standard mobile asset Joystick.js
I'm trying to make a top-down RPG game. I have a player object with a camera and touch joystick as child objects. I want to write a script that gets the X and Y offset of the joystick and uses them to determine the direction of movement. The joystick won't affect speed, just direction. My logic is as follows:
if(Math.Abs(x) > Math.Abs(y) && x > 0){ //Right Movement
transform.Translate(xaxisSpeed, 0, 0);
}
else if(Math.Abs (x) < Math.Abs (y) && y > 0){//Up movement
transform.Translate (0, yaxisSpeed, 0 );
}
else if(Math.Abs (x) > Math.Abs (y) && x < 0){//Left Movement
transform.Translate(-xaxisSpeed, 0, 0);
}
else if(Math.Abs (x) < Math.Abs (y) && y<0){//Down Movement
transform.Translate(0, -yaxisSpeed, 0);
}
The x and y variables are the x and y offsets from the origin, calculated by Joystick.js. xaxisSpeed and yaxsisSpeed are the movement speeds.
I need to know two things: How can I call a JavaScript method in C# and what do I actually need to call. I can't make heads or tales of Joystick.js to tell where x and y are, but they show in the inspector.
Joystick.js:
#pragma strict
@script RequireComponent( GUITexture )
// A simple class for bounding how far the GUITexture will move
class Boundary
{
var min : Vector2 = Vector2.zero;
var max : Vector2 = Vector2.zero;
}
static private var joysticks : Joystick[]; // A static collection of all joysticks
static private var enumeratedJoysticks : boolean = false;
static private var tapTimeDelta : float = 0.3; // Time allowed between taps
var touchPad : boolean; // Is this a TouchPad?
var touchZone : Rect;
var deadZone : Vector2 = Vector2.zero; // Control when position is output
var normalize : boolean = false; // Normalize output after the dead-zone?
var position : Vector2; // [-1, 1] in x,y
var tapCount : int;
// Current tap count
private var lastFingerId = -1; // Finger last used for this joystick
private var tapTimeWindow : float; // How much time there is left for a tap to occur
private var fingerDownPos : Vector2;
private var fingerDownTime : float;
private var firstDeltaTime : float = 0.5;
private var gui : GUITexture; // Joystick graphic
private var defaultRect : Rect; // Default position / extents of the joystick graphic
private var guiBoundary : Boundary = Boundary(); // Boundary for joystick graphic
private var guiTouchOffset : Vector2; // Offset to apply to touch input
private var guiCenter : Vector2; // Center of joystick
function Start()
{
// Cache this component at startup instead of looking up every frame
gui = GetComponent( GUITexture );
// Store the default rect for the gui, so we can snap back to it
defaultRect = gui.pixelInset;
defaultRect.x += transform.position.x * Screen.width;// + gui.pixelInset.x; // - Screen.width * 0.5;
defaultRect.y += transform.position.y * Screen.height;// - Screen.height * 0.5;
transform.position.x = 0.0;
transform.position.y = 0.0;
if ( touchPad )
{
// If a texture has been assigned, then use the rect ferom the gui as our touchZone
if ( gui.texture )
touchZone = defaultRect;
}
else
{
// This is an offset for touch input to match with the top left
// corner of the GUI
guiTouchOffset.x = defaultRect.width * 0.5;
guiTouchOffset.y = defaultRect.height * 0.5;
// Cache the center of the GUI, since it doesn't change
guiCenter.x = defaultRect.x + guiTouchOffset.x;
guiCenter.y = defaultRect.y + guiTouchOffset.y;
// Let's build the GUI boundary, so we can clamp joystick movement
guiBoundary.min.x = defaultRect.x - guiTouchOffset.x;
guiBoundary.max.x = defaultRect.x + guiTouchOffset.x;
guiBoundary.min.y = defaultRect.y - guiTouchOffset.y;
guiBoundary.max.y = defaultRect.y + guiTouchOffset.y;
}
}
function Disable()
{
gameObject.active = false;
enumeratedJoysticks = false;
}
function ResetJoystick()
{
// Release the finger control and set the joystick back to the default position
gui.pixelInset = defaultRect;
lastFingerId = -1;
position = Vector2.zero;
fingerDownPos = Vector2.zero;
if ( touchPad )
gui.color.a = 0.025;
}
function IsFingerDown() : boolean
{
return (lastFingerId != -1);
}
function LatchedFinger( fingerId : int )
{
// If another joystick has latched this finger, then we must release it
if ( lastFingerId == fingerId )
ResetJoystick();
}
function Update()
{
if ( !enumeratedJoysticks )
{
// Collect all joysticks in the game, so we can relay finger latching messages
joysticks = FindObjectsOfType( Joystick ) as Joystick[];
enumeratedJoysticks = true;
}
var count = Input.touchCount;
// Adjust the tap time window while it still available
if ( tapTimeWindow > 0 )
tapTimeWindow -= Time.deltaTime;
else
tapCount = 0;
if ( count == 0 )
ResetJoystick();
else
{
for(var i : int = 0;i < count; i++)
{
var touch : Touch = Input.GetTouch(i);
var guiTouchPos : Vector2 = touch.position - guiTouchOffset;
var shouldLatchFinger = false;
if ( touchPad )
{
if ( touchZone.Contains( touch.position ) )
shouldLatchFinger = true;
}
else if ( gui.HitTest( touch.position ) )
{
shouldLatchFinger = true;
}
// Latch the finger if this is a new touch
if ( shouldLatchFinger && ( lastFingerId == -1 || lastFingerId != touch.fingerId ) )
{
if ( touchPad )
{
gui.color.a = 0.15;
lastFingerId = touch.fingerId;
fingerDownPos = touch.position;
fingerDownTime = Time.time;
}
lastFingerId = touch.fingerId;
// Accumulate taps if it is within the time window
if ( tapTimeWindow > 0 )
tapCount++;
else
{
tapCount = 1;
tapTimeWindow = tapTimeDelta;
}
// Tell other joysticks we've latched this finger
for ( var j : Joystick in joysticks )
{
if ( j != this )
j.LatchedFinger( touch.fingerId );
}
}
if ( lastFingerId == touch.fingerId )
{
// Override the tap count with what the iPhone SDK reports if it is greater
// This is a workaround, since the iPhone SDK does not currently track taps
// for multiple touches
if ( touch.tapCount > tapCount )
tapCount = touch.tapCount;
if ( touchPad )
{
// For a touchpad, let's just set the position directly based on distance from initial touchdown
position.x = Mathf.Clamp( ( touch.position.x - fingerDownPos.x ) / ( touchZone.width / 2 ), -1, 1 );
position.y = Mathf.Clamp( ( touch.position.y - fingerDownPos.y ) / ( touchZone.height / 2 ), -1, 1 );
}
else
{
// Change the location of the joystick graphic to match where the touch is
gui.pixelInset.x = Mathf.Clamp( guiTouchPos.x, guiBoundary.min.x, guiBoundary.max.x );
gui.pixelInset.y = Mathf.Clamp( guiTouchPos.y, guiBoundary.min.y, guiBoundary.max.y );
}
if ( touch.phase == TouchPhase.Ended || touch.phase == TouchPhase.Canceled )
ResetJoystick();
}
}
}
if ( !touchPad )
{
// Get a value between -1 and 1 based on the joystick graphic location
position.x = ( gui.pixelInset.x + guiTouchOffset.x - guiCenter.x ) / guiTouchOffset.x;
position.y = ( gui.pixelInset.y + guiTouchOffset.y - guiCenter.y ) / guiTouchOffset.y;
}
// Adjust for dead zone
var absoluteX = Mathf.Abs( position.x );
var absoluteY = Mathf.Abs( position.y );
if ( absoluteX < deadZone.x )
{
// Report the joystick as being at the center if it is within the dead zone
position.x = 0;
}
else if ( normalize )
{
// Rescale the output after taking the dead zone into account
position.x = Mathf.Sign( position.x ) * ( absoluteX - deadZone.x ) / ( 1 - deadZone.x );
}
if ( absoluteY < deadZone.y )
{
// Report the joystick as being at the center if it is within the dead zone
position.y = 0;
}
else if ( normalize )
{
// Rescale the output after taking the dead zone into account
position.y = Mathf.Sign( position.y ) * ( absoluteY - deadZone.y ) / ( 1 - deadZone.y );
}
}
Perhaps http://forum.unity3d.com/threads/34061-Calling-a-C-function-from-javascript might help? I haven't touched this subject in months or even years, but the answers in that thread sound like they should work. Sorry for not posting something better, but I'm a bit baffled how often people come to "Answers" when they could easily get the answer via a quick search.
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