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I'm not sure if I worded this properly, but basically I have an object at point X,Y and I want an algorithm that can get this point to X',Y' but like show its route so I can animate it. I'm building a tile game and when the game starts I want the tiles to magically place themselves into a nice 2d array. So I will generate a random coordinate and then tell it to go to its goal within 50 frames. Thanks

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Since my path is linear, is there something simpler than A*? Thanks – Milo Dec 5 '09 at 5:14
Can you tell us a bit more about this path? are you saying that you j just want a way to draw a line? – Breton Dec 5 '09 at 5:18

3 Answers 3

up vote 4 down vote accepted

It sounds like you just want a linear transformation. Like

Xt = (((X'-X)/T)*t)+X, Yt = (((Y'-Y)/T)*t)+Y

Or in English the coordinate for a tile at time t is t/total_frames length along it's path. A* is overkill if you aren't trying to avoid obstacles.

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In vector notation, y = a+t*b, where a, b and y are vectors and t is a scalar. a is a vector from the origin to any point on the line and b is parallel to the line. If a and c are two points on the line, b=c-a (which you see in Todd's formula, though his involves differentials). An alternate form is y = a*t+c*(1-t). – outis Dec 5 '09 at 5:55
You can get more complex curves using polynomials: y(t) = a*t**2 + b*t + c, y(t) = a*t**3 + b*t**2 + c*t+d, where the coefficients are vectors. Combine the polynomials in a piecewise fashion and you have splines. Use two (or more) scalar variables and you get surfaces (including > 2 dimensional surfaces). – outis Dec 5 '09 at 5:56

You'll want to use the A-star algorithm. See here

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So you want to linearly interpolate from (X, Y) to (X', Y') in 50 steps. First define the total distance to move in each direction:

dx = X' - X
dy = Y' - Y

assuming n = 50 frames, at the i-th frame (so with i in range [0, n-1]) put the tile at coordinate (x, y) defined as:

x = X + dx * (i / (n-1))
y = Y + dy * (i / (n-1))
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