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I am writing a number of difficulties for my Pong clone I am writing to familiarize myself with SFML and Xcode. For the hardest difficulty, I would like to create an AI level where the computer knows instantly where the ball will go. So, if I had my xVelocity and my yVelocity, I could effectively have the slope. The thing is, every time the ball hits the top or bottom, the yVelocity reverses. So essentially, I have an algebra slope problem which does the opposite every time the walls are hit.

Now, my screen height is 600 pixels and the hit detection is 5 pixels on the top and bottom making the space 590 pixels.

My question: Is there are sort of formula which would encompass all of these factors. Say for instance, the ball is hit at x = 30 and y = 240 with a slope of 1.45, I want to get the y value at which it will hit when x = 770.

Let me know if I can simplify this. Again, I know how I could figure it out by calculating it say 4 times if the ball bounces 4 times but I was wondering if there was a way to figure it out taking in y velocity switch at the boundaries.


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3 Answers 3

up vote 7 down vote accepted

Edit: Just read your screen is actually 590 pixels high, this changes the math but not the formulas

Calculate where the ball would hit ignoring the collisions. If (0,0) is the top left of your arena, take y = mx + b, where b is your y offset (ball was hit at y = 240) and m is your slope (1.45)

Now we want to know what y will equal when x is 770-30 places further, so do the math:

y = (1.45)(740) + (240) = 1313

This is obviously outside of your range. It will have reflected

y/height = floor(1313/590) = 2 times

meaning the slope is still moving upward, and it will hit at

y mod height = 1313 mod 590 or 133

If it had reflected an odd number of times (floor(y/2) %2 == 1) then you would have to use the following to calculate it

MAX_HEIGHT - (y mod height) = 590 - (1903 mod 590) = 590 - 133 = 457

You can visualize this by stacking multiple 590 height fields on top of each other, with one being where you started:

|                                                 ball ends up here (*)
|                                                                *
|                                                            *
|                                                        *
------------------------(reflection  two)------------*---------------
|                                                *
|                                            *
|                                        *
|                                    *
|                                *
|                            *
|                        *
---------------------*---------(reflection 1)------------------------------
|                *
|            *
|        *
|    *
|*ball hit here

The same ideas should apply for going downward. Calculate position, figure out number of reflections, use mod or 590 - mod to determine where it should be.

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Thank you again! –  Pladnius Brooks Jul 13 '12 at 20:46

I haven't tried this but if you know where on the "y-axis" it was hit from and the slope, you'd have a slope intercept formula. Plug in the distance to the opposite side and you can tell if it will above, below or inside the screen. If it will go above or below, calculate what the x will be when y hits the top or bottom, subtract from the total x and repeat.

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If the math is getting to you here is a programmatic less elegant (and slower, not that that matter in most implementations of pong) solution:

    tempX = ball.x;
    tempY = ball.y;
    tempXVel = ball.hspeed;
    tempYVel = ball.vspeed;

    while(tempX < x) //Assumes ball is traveling at you and you are right paddle
    {                //in a X = 0 = left hand side scenario
     tempX += tempXVel;
     tempY += tempYVel; 

     if (tempY > 480 or tempY < 0)
        tempYVel *= -1; //Y Velocity Switch at boundaries

    target_Y = tempY;

Basically just do the same logic you do on the ball in a loop and then set that as your target.

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