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So I have several points a want to place on a 2D plane.

The problem I have is that each point has a specific distance it must be placed from each of the other points. I was wondering if anyone knew of any way to work out a functional placement for all these points that satisfies the distance requirements?

(For example, points a, b, and c. a must be distance 2 from b and 3 from c, and b and c must be 4 apart).

Writing this out I'm realising there must be variations of this that are impossible. The distances are not set in stone, however, and could be varied slightly.

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closed as off topic by Will Mar 7 '13 at 16:00

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Not really a programming question, Mathematics has its own exchange. That said, depending on your requirements, there may be infinite solutions, or none. Write out the complete problem. –  N8TRO Mar 5 '13 at 23:14

1 Answer 1

up vote 1 down vote accepted

This solution may be overkill, but it will work nicely (plus, it's cool):

Consider the problem from a particle simulation perspective: drop your points (hereafter, particles) randomly on to the 2D plane, then perform a mass-spring simulation to regularly distribute the particles in the plane. To do so, connect adjacent particles (4 or 8 connected neighbors) using springs, and then define the desired distance between points as each spring's resting length.

Particles with relative distances greater than this resting length will experience attraction, while those with relative distances smaller than the resting length will experience repulsion. Iterate the physical system a few times, and you should observe the particles to space themselves out regularly, much like birds on a wire (but in 2D).

Google "mass spring simulation" and "Hooke's law". This link is good, so are these: link, link, link, and link. These searches yield a million hits, and you can even find source code.

As you might guess, I do consider this to be a programming question ;)

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Hah, thank you very much, I'll work on throwing together an implementation tomorrow. You sir, get the correct answer. –  djcmm476 Mar 6 '13 at 1:19
I went back to my implementations, and I recall finding this reference helpful: itee.uq.edu.au/~comp4201/Particles1.pdf . Keep us posted on your progress: there are lots of "fun" aspects to this, stiffness constants, timesteps, integration methods, etc. –  Throwback1986 Mar 6 '13 at 3:29
So I managed to complete my implementation of this. It's in Python and 2D. Works really well too, just wanted to say thanks again. The C++ example was especially useful (always found worked examples the best way to learn). –  djcmm476 Mar 10 '13 at 1:06

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