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I will precise my question, I have a 2D object moving in a 2D world (X,Y), and I want to fake a movement on the Z axis. So I believe the best is to play with its extent (width,height) and position a bit. But what would be the equation to determine the new extent for an object of size(w,h) and moving from 1 meter forward the camera (Z axis)? What would be the parameters of such a function?

Thanks in advance for your help.

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Make the sprite larger or smaller? If you're using an 2D-isometric view, you'll need to a curve the movement as well. –  BlueRaja - Danny Pflughoeft Jul 20 '11 at 21:56

3 Answers 3

up vote 6 down vote accepted

Use a projection by storing the object's true (X,Y,Z) coordinates and display from a camera K units above the plane by a 2D projection (K*X/(Z+K),K*Y/(Z+K)) where +Z moves away from the camera.

To change the height, width follow a similar pattern with (DX,DY) the true size of the sprite and (K*DX/(Z+K),K*DY/(Z+K)) the apparent (drawn) size.

To do this right you can follow the advice from this FlipCode article.

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Thanks for the link! –  Silouane Jul 28 '11 at 17:07

The main parameters would be the distance to the camera and the aperture angle.

It is simple to determine the new size by new_size = size / distance. Notice that objects that have no distance would be of infinite size. To get the effect of the aperture angle you would want to include another factor f: new_size = f * size / distance Where f is the distance of unit size. Distance of unit size is the distance where the image would be drawn at its original size. Of course, this must not be zero too. By this distance you define impicitly the aperture angle.

When I talk about size I mean width and height so the formula applies on both.

I hope you can follow my explanations.

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Yes I understand what you mean, thank you for your answer. Do you think the "distance of unit size" can be calculated in some way? Like with the characteristics of the camera (fov,ratio). –  Silouane Jul 20 '11 at 10:39
You can further improve this by doing: new_size = f * size / (f + distance). that way the size at distance 0 will be 1, the size at distance f will be half the original, etc... –  tehvan Jul 20 '11 at 10:42
Right this offsets the distance and moves the "zeropoint" behind your camera. –  Nobody Jul 20 '11 at 10:44
But Nobody says: "Distance of unit size is the distance where the image would be drawn at its original size". So it means that at distance f the new_size should be the original size so we have f * size / f + f = size / 2, but it is not the original size. –  Silouane Jul 20 '11 at 10:50
In @tehvan's proposal the point of original size is zero distance. He moved the meaning of f a little but its up to you, what you want. I think his formula could be even more intuitive to handle. –  Nobody Jul 20 '11 at 11:23

The width and height will be inversely proportional to the distance from the viewer. If they are twice as far away, the size will be half. So If your "natural" distance from the viewer is A, and the new position is at A+Z, you will want to multiply the original width and height by A/(A+Z). This also works for small negative Z values (object is closer to viewer and will appear larger).

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