Z-Sharp/Slang/script.slg

int SCREENW = 900
int SCREENH = 600

int scoreOne = 0
int scoreTwo = 0

float ballSpeed = 8

float paddleMoveSpeed = 16

// Main is always run at the VERY BEGINNING. Start() is the start of GRAPHICS
// so if you never call SLB.Grapgics.Init, then Start won't run
func Main(input, in)
{
	// Immediately creates the window, then Start(), then the game loop. The game loop calls Update() every frame
	SLB.Graphics.Init("This is a pong game", SCREENW, SCREENH)
}

func Start()
{
	float centerX = SCREENW / 2
	float centerY = SCREENH / 2
	global Vec2 centerOfScreen = NVec2(centerX, centerY)
	
	Vec2 ballScale = NVec2(10, 10)
	Vec2 ballPos = centerOfScreen
	ballPos	-= ballScale
	
	Vec2 paddleScale = NVec2(4, 70)
	float yPosPaddle = ballPos.y - (paddleScale.y / 2)
	
	Vec2 lPaddlePosition = NVec2(15, yPosPaddle)
	global Vec2 lPaddleTargetPosition = NVec2(15, yPosPaddle)
	
	float rOffset = SCREENW - (paddleScale.x + 15)
	Vec2 rPaddlePosition = NVec2(rOffset, yPosPaddle)
	global Vec2 rPaddleTargetPosition = NVec2(rOffset, yPosPaddle)
	
	global Sprite ballSpr = SLB.Graphics.Sprite("./square.png", ballPos, ballScale, 0)
	global Sprite lPaddle = SLB.Graphics.Sprite("./square.png", lPaddlePosition, paddleScale, 0)
	global Sprite rPaddle = SLB.Graphics.Sprite("./square.png", rPaddlePosition, paddleScale, 0)
	
	float leftOffset = SCREENW / 4
	Vec2 scoreOnePos = NVec2(leftOffset - 40, 30)
	global Text scoreTextOne = SLB.Graphics.Text("score", "./arial.ttf", scoreOnePos, 40, 0, 255, 255, 255)
	float rightOffset = SCREENW - (SCREENW / 4)
	Vec2 scoreTwoPos = NVec2(rightOffset - 40, 30)
	global Text scoreTextTwo = SLB.Graphics.Text("score", "./arial.ttf", scoreTwoPos, 40, 0, 255, 255, 255)
	
	global Vec2 ballVelocity = NVec2(ballSpeed, ballSpeed)
}

func Update(deltaTime)
{
	float FPS = 1 / deltaTime
	print "FPS: " + FPS

	// Handles Left Paddle Movement
	//
	if GetKey("W") == true
	{
		float newX = lPaddle.position.x
		// Subtract from Y to move up, because vertical coordinates are reversed
		float newY = lPaddleTargetPosition.y - paddleMoveSpeed
		newY = Clamp(newY, 0, SCREENH - 70)
		lPaddleTargetPosition = NVec2(newX, newY)
		print "MOVE UP"
	}
	if GetKey("S") == true
	{
		float newX = lPaddle.position.x
		// Add to Y to move down, because vertical coordinates are reversed
		float newY = lPaddleTargetPosition.y + paddleMoveSpeed
		newY = Clamp(newY, 0, SCREENH - 70)
		lPaddleTargetPosition = NVec2(newX, newY)
		print "MOVE DOWN"
	}
	// Lerps from old position to destination smoothly
	float oldY = lPaddle.position.y
	float stopSpeed = deltaTime * 6
	float newY = lPaddleTargetPosition.y
	float lerpedY = Lerp(oldY, newY, stopSpeed)
	lPaddle.position = NVec2(newX, lerpedY)
	
	// Handles Right Paddle Movement
	//
	if GetKey("UP") == true
	{
		float newX = rPaddle.position.x
		// Subtract from Y to move up, because vertical coordinates are reversed
		float newY = rPaddleTargetPosition.y - paddleMoveSpeed
		newY = Clamp(newY, 0, SCREENH - 70)
		rPaddleTargetPosition = NVec2(newX, newY)
	}
	if GetKey("DOWN") == true
	{
		float newX = rPaddle.position.x
		// Add to Y to move down, because vertical coordinates are reversed
		float newY = rPaddleTargetPosition.y + paddleMoveSpeed
		newY = Clamp(newY, 0, SCREENH - 70)
		rPaddleTargetPosition = NVec2(newX, newY)
	}
	// Lerps from old position to destination smoothly
	float oldY = rPaddle.position.y
	float stopSpeed = deltaTime * 6
	float newY = rPaddleTargetPosition.y
	float lerpedY = Lerp(oldY, newY, stopSpeed)
	rPaddle.position = NVec2(newX, lerpedY)
	
	ballSpr.position += ballVelocity
	
	// Finally draws all of the sprites
	SLB.Graphics.Draw(ballSpr)
	SLB.Graphics.Draw(lPaddle)
	SLB.Graphics.Draw(rPaddle)
	
	SLB.Graphics.DrawText(scoreTextOne)
	SLB.Graphics.DrawText(scoreTextTwo)
	
	HandleBallBounce()
}

func HandleBallBounce()
{
	float ballX = ballSpr.position.x
	float ballY = ballSpr.position.y
	float scaleY = ballSpr.scale.y
	
	float topEdge = ballY - scaleY
	// Checks if the ball is touching the ceiling
	if topEdge <= 0
	{
		float vX = ballVelocity.x
		float vY = ballVelocity.y
		vY *= -1
		ballVelocity = NVec2(vX, vY)
		return 0
	}
	float bottomEdge = ballY + scaleY
	// Checks if the ball is touching the floor
	if bottomEdge >= SCREENH
	{
		float vX = ballVelocity.x
		float vY = ballVelocity.y
		vY *= -1
		ballVelocity = NVec2(vX, vY)
		return 0
	}
	
	// Checks if ball is in player 1 goal
	if ballX < 0
	{
		Vec2 ballPos = centerOfScreen
		ballPos -= ballSpr.scale
		ballPos.x -= SCREENW / 3
		scoreTwo += 1
		ballSpr.position = ballPos
		ballVelocity = NVec2(ballSpeed, 0)
		scoreTextTwo.content = Round(scoreTwo)
		print scoreTextTwo.content
		SLB.Graphics.LoadText(scoreTextTwo)
	}
	// Checks if ball is in player 2 goal
	if ballX > SCREENW
	{
		Vec2 ballPos = centerOfScreen
		ballPos -= ballSpr.scale
		ballPos.x += SCREENW / 3
		scoreOne += 1
		ballSpr.position = ballPos
		ballVelocity = NVec2(-ballSpeed, 0)
		scoreTextOne.content = Round(scoreOne)
		print scoreTextOne.content
		SLB.Graphics.LoadText(scoreTextOne)
	}
	
	// Checks if colliding with left paddle
	bool coll = Colliding(ballSpr, lPaddle)
	if coll == true
	{
		float difference = lPaddle.position.y
		difference -= ballY
		float paddleHeight = lPaddle.scale.y
		float normalizedRelativeIntersectionY = difference / (paddleHeight / 2)
		float bounceAngle = normalizedRelativeIntersectionY * 0.523599
		float ballVx = ballSpeed
		ballVx *= Cos(bounceAngle)
		float ballVy = ballSpeed
		ballVy *= Sin(bounceAngle)
		ballVy *= -1
		ballVelocity = NVec2(ballVx, ballVy)
	}
	// Checks if colliding with right paddle
	bool coll = Colliding(ballSpr, rPaddle)
	if coll == true
	{
		float difference = rPaddle.position.y
		difference -= ballY
		float paddleHeight = rPaddle.scale.y
		float normalizedRelativeIntersectionY = difference / (paddleHeight / 2)
		float bounceAngle = normalizedRelativeIntersectionY * 0.523599
		float ballVx = ballSpeed
		ballVx *= Cos(bounceAngle)
		ballVx *= -1
		float ballVy = ballSpeed
		ballVy *= Sin(bounceAngle)
		ballVelocity = NVec2(ballVx, ballVy)
	}
}

func Colliding(a, b)
{
	bool b = SLB.Physics.AxisAlignedCollision(a, b)
	return b
}