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Let's say I have some abstract shapes defined each with a width and height (let's make them rectangles for the sake of simplicity). How can I place as many of them as possible on a single canvas (just a term, not necessarily HTML5 canvas) of a defined width and height?

Obviously this is some sort of constraint satisfaction problem, but I don't really know where to start (besides brute force). Googling just turns up unrelated results (probably because I don't know what to search for). What would be a good algorithm or what would be a good way to go about creating an algorithm to do this?

Fizz is a good example. Shapes (circles, in this case) appear in groups and don't overlap each other and they stay out of each other's way. My use case is more of a one time positioning deal. Another example is SpriteRight, which places as efficiently as possible within certain boundaries.

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Google bin packing algorithm, you'll find what you need to make a start. –  Tony Hopkinson Feb 13 '12 at 22:23

2 Answers 2

I found an open source example with JavaScript and HTML5 canvas. Rectangles are randomly generated and then packed. The author, however, makes no claims as to efficiency.

I also found an article which looks promising.

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You could also look at http://www.aimms.com/downloads/application-examples/circle-packing. Here mathematical programming/modeling is used to solve the circle-packing problem. Other variants can also be defined. Special bin-packing constraints exist in Constraint Programming, http://www.aimms.com/cp.

In general, mathematical programming is a good way to approach such problems.

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