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I would like to create a "Gravity Grid" such as in this image:


The closest I have been in creating this grid is shown in this image:


I'm only warping the lines parallel to the Y-Axis until I can solve this problem. But as you can see in the picture, the lines seem to be warping past my "planet".

Here is the code of interest I have for now:

for (each point on a line parallel to the y-axis) {
    if (planetPosition.x > currrentPoint.x) {
        warpedXPos = currrentPoint.x + (1 / (distance*1000));
    else {
        warpedXPos = currrentPoint.x - (1 / (distance*1000));
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up vote 5 down vote accepted

The idea is to pull every point towards the planet by an amount proportional to 1/R, where R is the distance from the planet to the point.

In your code you currentPoint.x, etc, is the absolute position, but you need to warp the position relative to the planet. Therefore your equation should look like:

warped.x = currrentPoint.x + (planetPosition.x-currrentPoint.x)/(1000*distance)

The part after the + is the scaling of the relative distance basically your warp, and then you add this deflection to the original absolute value. You probably also won't want to use the 1000 factor, but this is just keeping with your example. Also, note that there's no need to break this into cases using the >, the sign of the subtraction should make the adjustment in the appropriate direction.

(By the way, this type of operation is super common... first you subtract an absolute factor, then you scale, then you add the original factor back in. It's a trick worth memorizing for use in lots of applications.)

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Thank you, it worked. I was trying to figure this out for hours. – Nathan Apr 8 '12 at 3:15
Tip, use 1/R^2 instead as that is what real gravity is and it looks better. – Stephan van den Heuvel Apr 8 '12 at 17:32
@Stephan: The warped space diagrams show the gravitational potential, which goes as 1/R. The force, which is a different thing, goes as 1/R^2, but it has no meaning (that I know of anyway) to show the force as a warping of space. – tom10 Apr 8 '12 at 20:30
@tom10: You are absolutely correct. I was mixed up between the equation I used to calculate the force on the actors in the simulation and the actual warping of the potential lines. Thanks for setting me straight! – Stephan van den Heuvel Apr 9 '12 at 16:37

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